From 39f7f7da37039df382cce02ab961bd5255e9fd06 Mon Sep 17 00:00:00 2001 From: Sudarsan B Date: Wed, 25 Mar 2026 19:28:38 -0400 Subject: [PATCH] 1) pc-calibration macros added, 2) mild bookkeeping changes to handle multiple datasets with minimal changes. more changes to delta-t etc still pending --- Armory/Armory/ANASEN_model.C | 121 + Armory/Armory/ClassAnasen.h | 314 + Armory/Armory/ClassDet.h | 64 + Armory/Armory/ClassPC1An.h | 246 + Armory/Armory/ClassPW.h | 315 + Armory/Armory/ClassSX3.h | 257 + Armory/Armory/ClassTransfer.h | 468 + Armory/Armory/HistPlotter.h | 414 + Armory/Armory/Isotope.h | 522 + Armory/Armory/LICENSE | 674 + Armory/Armory/Makefile | 32 + Armory/Armory/Mapper.cpp | 182 + Armory/Armory/anasenMS.cpp | 280 + Armory/Armory/constant.h | 105 + Armory/Makefile | 2 +- MakeVertex.C | 58 +- elog/elogd.cfg | 1109 + eloss_calculations/make_eloss_table.C | 13 + eloss_calculations/stopit/a.out | Bin 0 -> 54072 bytes eloss_calculations/stopit/desorb.for | 811 + eloss_calculations/stopit/desorb.out | 88435 ++++++++++++++++ eloss_calculations/stopit/filtered.out | 6 + eloss_calculations/stopit/outfile.out | 50 + eloss_calculations/stopit/script.exp | 106 + eloss_calculations/stopit/stopit.expect | 106 + eloss_calculations/stopit/stopit2.for | 1057 + eloss_calculations/stopit/stopit_pex.py | 87 + eloss_calculations/test_tgraph.C | 17 + gmsx3/func1.h | 41 + gmsx3/intgm_sx3.h | 216 + gmsx3/utilities_orr.h | 338 + gnuplot_lookerup | 80 + live_plotter | 41 + pccal/anode_gainmatch.C | 67 + pccal/anode_gm_coeffs.dat | 24 + pccal/cathode_gainmatch.C | 69 + pccal/cathode_gm_coeffs.dat | 21 + pccal/pc_gm_coeffs.dat | 49 + pccal/slope_intercept_26Al.dat | 50 + results/run_12_fixed_geometry2_13Feb26.pdf | Bin 0 -> 18559 bytes results/run_12_fixed_geometry_13Feb26.pdf | Bin 0 -> 19341 bytes run_sx3.sh | 17 +- scratch/25Mar26_17F_alpha+gaus/compare.C | 41 + scratch/25Mar26_17F_alpha+gaus/fit.log | 279 + .../25Mar26_17F_alpha+gaus/gnuplotter_first | 7 + .../Alternate_PC_wire_interpolation_test.ods | Bin 0 -> 11405 bytes scratch/lise.dat | 16 + scratch/phiscan.sh | 11 + scratch/scan_phisearch.C | 20 + scratch/test.dat | 7 + scratch/testing.h | 1 + scratch/testme.dat | 29 + slope_intercept_results.dat | 2 +- slope_intercept_results_17F.dat | 49 + 54 files changed, 97286 insertions(+), 40 deletions(-) create mode 100644 Armory/Armory/ANASEN_model.C create mode 100644 Armory/Armory/ClassAnasen.h create mode 100644 Armory/Armory/ClassDet.h create mode 100644 Armory/Armory/ClassPC1An.h create mode 100644 Armory/Armory/ClassPW.h create mode 100644 Armory/Armory/ClassSX3.h create mode 100644 Armory/Armory/ClassTransfer.h create mode 100644 Armory/Armory/HistPlotter.h create mode 100644 Armory/Armory/Isotope.h create mode 100644 Armory/Armory/LICENSE create mode 100644 Armory/Armory/Makefile create mode 100644 Armory/Armory/Mapper.cpp create mode 100644 Armory/Armory/anasenMS.cpp create mode 100644 Armory/Armory/constant.h create mode 100644 elog/elogd.cfg create mode 100644 eloss_calculations/make_eloss_table.C create mode 100755 eloss_calculations/stopit/a.out create mode 100755 eloss_calculations/stopit/desorb.for create mode 100644 eloss_calculations/stopit/desorb.out create mode 100644 eloss_calculations/stopit/filtered.out create mode 100644 eloss_calculations/stopit/outfile.out create mode 100755 eloss_calculations/stopit/script.exp create mode 100755 eloss_calculations/stopit/stopit.expect create mode 100755 eloss_calculations/stopit/stopit2.for create mode 100644 eloss_calculations/stopit/stopit_pex.py create mode 100644 eloss_calculations/test_tgraph.C create mode 100644 gmsx3/func1.h create mode 100644 gmsx3/intgm_sx3.h create mode 100644 gmsx3/utilities_orr.h create mode 100644 gnuplot_lookerup create mode 100644 live_plotter create mode 100644 pccal/anode_gainmatch.C create mode 100644 pccal/anode_gm_coeffs.dat create mode 100644 pccal/cathode_gainmatch.C create mode 100644 pccal/cathode_gm_coeffs.dat create mode 100644 pccal/pc_gm_coeffs.dat create mode 100644 pccal/slope_intercept_26Al.dat create mode 100644 results/run_12_fixed_geometry2_13Feb26.pdf create mode 100644 results/run_12_fixed_geometry_13Feb26.pdf create mode 100644 scratch/25Mar26_17F_alpha+gaus/compare.C create mode 100644 scratch/25Mar26_17F_alpha+gaus/fit.log create mode 100644 scratch/25Mar26_17F_alpha+gaus/gnuplotter_first create mode 100644 scratch/Alternate_PC_wire_interpolation_test.ods create mode 100644 scratch/lise.dat create mode 100644 scratch/phiscan.sh create mode 100644 scratch/scan_phisearch.C create mode 100644 scratch/test.dat create mode 100644 scratch/testing.h create mode 100644 scratch/testme.dat create mode 100644 slope_intercept_results_17F.dat diff --git a/Armory/Armory/ANASEN_model.C b/Armory/Armory/ANASEN_model.C new file mode 100644 index 0000000..e21d4c6 --- /dev/null +++ b/Armory/Armory/ANASEN_model.C @@ -0,0 +1,121 @@ +#include "TGeoManager.h" +#include "TGeoVolume.h" +#include "TGeoBBox.h" +#include "TCanvas.h" +#include "TPolyMarker3D.h" +#include "TPolyLine3D.h" + +#include "TMath.h" + +void ANASEN_model(int anodeID1 = -1, int anodeID2 = -1, int cathodeID1 = -1, int cathodeID2 = -1 ) { + + // Create ROOT manager and master volume + TGeoManager *geom = new TGeoManager("Detector", "ANASEN"); + + //--- define some materials + TGeoMaterial *matVacuum = new TGeoMaterial("Vacuum", 0,0,0); + TGeoMaterial *matAl = new TGeoMaterial("Al", 26.98,13,2.7); + //--- define some media + TGeoMedium *Vacuum = new TGeoMedium("Vacuum",1, matVacuum); + TGeoMedium *Al = new TGeoMedium("Root Material",2, matAl); + + //--- make the top container volume + Double_t worldx = 200.; //mm + Double_t worldy = 200.; //mm + Double_t worldz = 200.; //mm + TGeoVolume *worldBox = geom->MakeBox("ROOT", Vacuum, worldx, worldy, worldz); + geom->SetTopVolume(worldBox); + + //--- making axis + TGeoVolume *axisX = geom->MakeTube("axisX", Al, 0, 0.1, 5.); + axisX->SetLineColor(1); + worldBox->AddNode(axisX, 1, new TGeoCombiTrans(5, 0, 0., new TGeoRotation("rotA", 90., 90., 0.))); + + TGeoVolume *axisY = geom->MakeTube("axisY", Al, 0, 0.1, 5.); + axisY->SetLineColor(1); + worldBox->AddNode(axisY, 1, new TGeoCombiTrans(0, 5, 0., new TGeoRotation("rotB", 0., 90., 0.))); + + TGeoVolume *axisZ = geom->MakeTube("axisZ", Al, 0, 0.1, 5.); + axisZ->SetLineColor(1); + worldBox->AddNode(axisZ, 1, new TGeoTranslation(0, 0, 5)); + + //--- making ANASEN + const int nWire = 24; + const int wireShift = 3; + const int zLen = 300; //mm + const int radiusA = 38; + const int radiusC = 43; + + //.......... convert to wire center dimensions + double dAngle = wireShift * TMath::TwoPi() / nWire; + double radiusAnew = radiusA * TMath::Cos( dAngle / 2.); + double wireALength = TMath::Sqrt( zLen*zLen + TMath::Power(2* radiusA * TMath::Sin(dAngle/2),2) ); + double wireATheta = TMath::ATan2( 2* radiusA * TMath::Sin( dAngle / 2.), zLen); + + // printf(" dAngle : %f\n", dAngle); + // printf(" newRadius : %f\n", radiusAnew); + // printf("wireLength : %f\n", wireALength); + // printf("wire Theta : %f\n", wireATheta); + + TGeoVolume *pcA = geom->MakeTube("tub1", Al, 0, 0.01, wireALength/2); + pcA->SetLineColor(4); + + for( int i = 0; i < nWire; i++){ + if( anodeID2 >= 0 && (i < anodeID1 || i > anodeID2) ) continue; + worldBox->AddNode(pcA, i+1, new TGeoCombiTrans( radiusAnew * TMath::Cos( TMath::TwoPi() / nWire *i + dAngle / 2), + radiusAnew * TMath::Sin( TMath::TwoPi() / nWire *i + dAngle / 2), + 0, + new TGeoRotation("rot1", 360/ nWire * (i + wireShift/2.), wireATheta * 180/ TMath::Pi(), 0.))); + + } + + double radiusCnew = radiusC * TMath::Cos( dAngle / 2.); + double wireCLength = TMath::Sqrt( zLen*zLen + TMath::Power(2* radiusC * TMath::Sin(dAngle/2),2) ); + double wireCTheta = TMath::ATan2( 2* radiusC * TMath::Sin( dAngle / 2.), zLen); + + TGeoVolume *pcC = geom->MakeTube("tub2", Al, 0, 0.01, wireCLength/2); + pcC->SetLineColor(6); + for( int i = 0; i < nWire; i++){ + if( cathodeID2 >= 0 && (i < cathodeID1 || i > cathodeID2) ) continue; + worldBox->AddNode(pcC, i+1, new TGeoCombiTrans( radiusCnew * TMath::Cos( TMath::TwoPi() / nWire *i - dAngle/2), + radiusCnew * TMath::Sin( TMath::TwoPi() / nWire *i - dAngle/2), + 0, + new TGeoRotation("rot1", 360/ nWire * (i - wireShift/2.), -wireCTheta * 180/ TMath::Pi(), 0.))); + } + + const int nSX3 = 12; + const int sx3Radius = 88; + const int sx3Width = 40; + const int sx3Length = 75; + const int sx3Gap = 5; + + TGeoVolume * sx3 = geom->MakeBox("box", Al, 0.1, sx3Width/2, sx3Length/2); + sx3->SetLineColor(kGreen+3); + for( int i = 0; i < nSX3; i++){ + worldBox->AddNode(sx3, 2*i+1., new TGeoCombiTrans( sx3Radius * TMath::Cos( TMath::TwoPi() / nSX3 * (i + 0.5)), + sx3Radius * TMath::Sin( TMath::TwoPi() / nSX3 * (i + 0.5)), + sx3Length/2+sx3Gap, + new TGeoRotation("rot1", 360/nSX3 * (i + 0.5), 0., 0.))); + + worldBox->AddNode(sx3, 2*i+2., new TGeoCombiTrans( sx3Radius * TMath::Cos( TMath::TwoPi() / nSX3 * (i + 0.5)), + sx3Radius * TMath::Sin( TMath::TwoPi() / nSX3 * (i + 0.5)), + -sx3Length/2-sx3Gap, + new TGeoRotation("rot1", 360/nSX3 * (i + 0.5), 0., 0.))); + } + + const int qqqR1 = 50; + const int qqqR2 = 100; + TGeoVolume *qqq = geom->MakeTubs("qqq", Al, qqqR1, qqqR2, 0.5, 5, 85); + qqq->SetLineColor(7); + for( int i = 0; i < 4; i++){ + worldBox->AddNode(qqq, i+1, new TGeoCombiTrans( 0, + 0, + 100, + new TGeoRotation("rot1", 360/4 * (i), 0., 0.))); + } + + geom->CloseGeometry(); + + geom->SetVisLevel(4); + worldBox->Draw("ogle"); +} diff --git a/Armory/Armory/ClassAnasen.h b/Armory/Armory/ClassAnasen.h new file mode 100644 index 0000000..90585b7 --- /dev/null +++ b/Armory/Armory/ClassAnasen.h @@ -0,0 +1,314 @@ +#ifndef ClassAnasen_h +#define ClassAnasen_h + +#include +#include +#include + +#include "TGeoManager.h" +#include "TGeoVolume.h" +#include "TGeoBBox.h" +#include "TCanvas.h" +#include "TPolyMarker3D.h" +#include "TPolyLine3D.h" +#include "TRandom.h" + +#include "ClassSX3.h" +#include "ClassPW.h" + +class ANASEN{ +public: + ANASEN(); + ~ANASEN(); + + void SetUncertainties(double sx3W, double sx3L, double anode, double cathode){ + sigmaA = anode; + sigmaC = cathode; + sigmaW = sx3W; + sigmaL = sx3L; + } + + void DrawTrack(TVector3 pos, TVector3 direction, bool drawEstimatedTrack = false); + void DrawDeducedTrack(TVector3 sx3Pos, int anodeID, int cathodeID); + void DrawAnasen(int anodeID1 = -1, + int anodeID2 = -1, + int cathodeID1 = -1, + int cathodeID2 = -1, + int sx3ID = -1, + bool DrawQQQ = false ); + + + + PW * GetPW() {return pw;} + SX3 * GetSX3() {return sx3;} + +private: + + PW * pw; + SX3 * sx3; + + double sigmaA, sigmaC; // pw + double sigmaW, sigmaL; // sx3 + + const float qqqR1 = 50; + const float qqqR2 = 100; + const float qqqZPos = 23 + 75 + 30; + + void CalGeometry(); + + TGeoManager *geom; + TGeoVolume *worldBox; + + void Construct3DModel(int anodeID1 = -1, + int anodeID2 = -1, + int cathodeID1 = -1, + int cathodeID2 = -1, + int sx3ID = -1, + bool DrawQQQ = true); + +}; + +//!============================================== +inline ANASEN::ANASEN(){ + + pw = new PW(); + sx3 = new SX3(); + + CalGeometry(); + + geom = nullptr; + worldBox = nullptr; + +} + +inline ANASEN::~ANASEN(){ + + delete geom; + + delete pw; + delete sx3; + +} + +//!============================================== +inline void ANASEN::CalGeometry(){ + + sx3->ConstructGeo(); + pw->ConstructGeo(); + +} + +inline void ANASEN::Construct3DModel(int anodeID1, int anodeID2, int cathodeID1, int cathodeID2, int sx3ID, bool DrawQQQ ){ + + if( geom ) delete geom; + + // Create ROOT manager and master volume + geom = new TGeoManager("Detector", "ANASEN"); + + //--- define some materials + TGeoMaterial *matVacuum = new TGeoMaterial("Vacuum", 0,0,0); + TGeoMaterial *matAl = new TGeoMaterial("Al", 26.98,13,2.7); + //--- define some media + TGeoMedium *Vacuum = new TGeoMedium("Vacuum",1, matVacuum); + TGeoMedium *Al = new TGeoMedium("Root Material",2, matAl); + + //--- make the top container volume + Double_t worldx = 200.; //mm + Double_t worldy = 200.; //mm + Double_t worldz = 200.; //mm + worldBox = geom->MakeBox("ROOT", Vacuum, worldx, worldy, worldz); + geom->SetTopVolume(worldBox); + + //--- making axis + TGeoVolume *axisX = geom->MakeTube("axisX", Al, 0, 0.1, 5.); + axisX->SetLineColor(1); + worldBox->AddNode(axisX, 1, new TGeoCombiTrans(5, 0, 0., new TGeoRotation("rotA", 90., 90., 0.))); + TGeoVolume *axisY = geom->MakeTube("axisY", Al, 0, 0.1, 5.); + axisY->SetLineColor(1); + worldBox->AddNode(axisY, 1, new TGeoCombiTrans(0, 5, 0., new TGeoRotation("rotB", 0., 90., 0.))); + TGeoVolume *axisZ = geom->MakeTube("axisZ", Al, 0, 0.1, 5.); + axisZ->SetLineColor(1); + worldBox->AddNode(axisZ, 1, new TGeoTranslation(0, 0, 5)); + + //.......... convert to wire center dimensions + TGeoVolume *pcA = geom->MakeTube("tub1", Al, 0, 0.01, pw->GetAnodeLength()/2); + pcA->SetLineColor(4); + + int startID = 0; + int endID = pw->GetNumWire() - 1; + + if( anodeID1 >= 0 && anodeID2 >= 0 ){ + startID = anodeID1; + endID = anodeID2; + if( anodeID1 > anodeID2 ) { + endID = pw->GetNumWire() + anodeID2; + } + } + + for( int i = startID; i <= endID; i++){ + TVector3 a = pw->GetAnodneMid(i); + double wireTheta = pw->GetAnodeTheta(i) * TMath::RadToDeg(); + double wirePhi = pw->GetAnodePhi(i) * TMath::RadToDeg() + 90; + + worldBox->AddNode(pcA, i+1, new TGeoCombiTrans( a.X(), + a.Y(), + a.Z(), + new TGeoRotation("rot1", wirePhi, wireTheta, 0.))); + } + + TGeoVolume *pcC = geom->MakeTube("tub2", Al, 0, 0.01, pw->GetCathodeLength()/2); + pcC->SetLineColor(6); + + startID = 0; + endID = pw->GetNumWire() - 1; + + if( cathodeID1 >= 0 && cathodeID2 >= 0 ){ + startID = cathodeID1; + endID = cathodeID2; + if( cathodeID1 > cathodeID2 ) { + endID = pw->GetNumWire() + cathodeID2; + } + } + + for( int i = startID; i <= endID; i++){ + TVector3 a = pw->GetCathodneMid(i); + double wireTheta = pw->GetCathodeTheta(i) * TMath::RadToDeg(); + double wirePhi = pw->GetCathodePhi(i) * TMath::RadToDeg() + 90; + + worldBox->AddNode(pcC, i+1, new TGeoCombiTrans( a.X(), + a.Y(), + a.Z(), + new TGeoRotation("rot1", wirePhi , wireTheta, 0.))); + } + + TGeoVolume * sx3Det = geom->MakeBox("box", Al, 0.1, sx3->GetWidth()/2, sx3->GetLength()/2); + sx3Det->SetLineColor(kGreen+3); + + for( int i = 0; i < sx3->GetNumDet(); i++){ + if( sx3ID != -1 && i != sx3ID ) continue; + TVector3 aUp = sx3->GetUpMid(i); // center of the SX3 upstream + TVector3 aDn = sx3->GetDnMid(i); // center of the SX3 Downstream + double phi = sx3->GetDetPhi(i) * TMath::RadToDeg() + 90; + + worldBox->AddNode(sx3Det, 2*i+1., new TGeoCombiTrans( aUp.X(), + aUp.Y(), + aUp.Z(), + new TGeoRotation("rot1", phi, 0., 0.))); + worldBox->AddNode(sx3Det, 2*i+1., new TGeoCombiTrans( aDn.X(), + aDn.Y(), + aDn.Z(), + new TGeoRotation("rot1", phi, 0., 0.))); + } + + if( DrawQQQ ){ + TGeoVolume *qqq = geom->MakeTubs("qqq", Al, qqqR1, qqqR2, 0.5, 5, 85); + qqq->SetLineColor(7); + for( int i = 0; i < 4; i++){ + worldBox->AddNode(qqq, i+1, new TGeoCombiTrans( 0, + 0, + qqqZPos, + new TGeoRotation("rot1", 360/4 * (i), 0., 0.))); + } + } + +} + +//!============================================== Drawing functions +inline void ANASEN::DrawAnasen(int anodeID1, int anodeID2, int cathodeID1, int cathodeID2, int sx3ID, bool DrawQQQ ){ + + Construct3DModel(anodeID1, anodeID2, cathodeID1, cathodeID2, sx3ID, DrawQQQ); + + geom->CloseGeometry(); + geom->SetVisLevel(4); + worldBox->Draw("ogle"); + +} + +inline void ANASEN::DrawTrack(TVector3 pos, TVector3 direction, bool drawEstimatedTrack){ + + pw->FindWireID(pos, direction); + sx3->FindSX3Pos(pos, direction); + + std::pair wireID = pw->GetNearestID(); + + Construct3DModel(wireID.first, wireID.first, wireID.second, wireID.second, -1, false); + + double theta = direction.Theta() * TMath::RadToDeg(); + double phi = direction.Phi() * TMath::RadToDeg(); + // printf("Theta, Phi = %.2f %.2f \n", theta, phi); + // pos.Print(); + TGeoVolume * Track = geom->MakeTube("track", 0, 0, 0.1, 150.); + Track->SetLineColor(kRed); + worldBox->AddNode(Track, 1, new TGeoCombiTrans( pos.X(), pos.Y(), pos.Z(), new TGeoRotation("rotA", phi + 90, theta, 0.))); + + TGeoVolume * startPos = geom->MakeSphere("startPos", 0, 0, 3); + startPos->SetLineColor(kBlack); + worldBox->AddNode(startPos, 3, new TGeoCombiTrans( pos.X(), pos.Y(), pos.Z(), new TGeoRotation("rotA", 0, 0, 0.))); + + if( sx3->GetID() >= 0 ){ + //TVector3 hitPos = sx3->GetHitPos(); + TVector3 hitPos = sx3->GetHitPosWithSigma(sigmaW, sigmaL); + + TGeoVolume * hit = geom->MakeSphere("hitpos", 0, 0, 3); + hit->SetLineColor(kRed); + worldBox->AddNode(hit, 2, new TGeoCombiTrans( hitPos.X(), hitPos.Y(), hitPos.Z(), new TGeoRotation("rotA", 0, 0, 0.))); + + if( drawEstimatedTrack ){ + + {//===== simple + pw->CalTrack(hitPos, wireID.first, wireID.second, true); + + double thetaDeduce = pw->GetTrackTheta() * TMath::RadToDeg(); + double phiDeduce = pw->GetTrackPhi() * TMath::RadToDeg(); + + TGeoVolume * trackDeduce = geom->MakeTube("trackDeduce", 0, 0, 0.1, 100.); + trackDeduce->SetLineColor(kOrange); + worldBox->AddNode(trackDeduce, 1, new TGeoCombiTrans( hitPos.X(), hitPos.Y(), hitPos.Z(), new TGeoRotation("rotA", phiDeduce + 90, thetaDeduce, 0.))); + } + + {//===== complicated + PWHitInfo hitInfo = pw->GetHitInfo(); + pw->CalTrack2(hitPos, hitInfo, sigmaA, sigmaC, true); + + double thetaDeduce = pw->GetTrackTheta() * TMath::RadToDeg(); + double phiDeduce = pw->GetTrackPhi() * TMath::RadToDeg(); + + TGeoVolume * trackDeduce2 = geom->MakeTube("trackDeduce2", 0, 0, 0.1, 100.); + trackDeduce2->SetLineColor(kGreen); + worldBox->AddNode(trackDeduce2, 1, new TGeoCombiTrans( hitPos.X(), hitPos.Y(), hitPos.Z(), new TGeoRotation("rotA", phiDeduce + 90, thetaDeduce, 0.))); + } + } + + } + + geom->CloseGeometry(); + geom->SetVisLevel(4); + worldBox->Draw("ogle"); + +} + +inline void ANASEN::DrawDeducedTrack(TVector3 sx3Pos, int anodeID, int cathodeID){ + + pw->CalTrack(sx3Pos, anodeID, cathodeID); + + Construct3DModel(anodeID, anodeID, cathodeID, cathodeID, -1, false); + + double theta = pw->GetTrackTheta() * TMath::RadToDeg(); + double phi = pw->GetTrackPhi() * TMath::RadToDeg(); + + TGeoVolume * Track = geom->MakeTube("axisX", 0, 0, 0.1, 100.); + Track->SetLineColor(kRed); + worldBox->AddNode(Track, 1, new TGeoCombiTrans( sx3Pos.X(), sx3Pos.Y(), sx3Pos.Z(), new TGeoRotation("rotA", phi + 90, theta, 0.))); + + TGeoVolume * hit = geom->MakeSphere("hitpos", 0, 0, 3); + hit->SetLineColor(kRed); + worldBox->AddNode(hit, 2, new TGeoCombiTrans( sx3Pos.X(), sx3Pos.Y(), sx3Pos.Z(), new TGeoRotation("rotA", 0, 0, 0.))); + + geom->CloseGeometry(); + geom->SetVisLevel(4); + worldBox->Draw("ogle"); + +} + + +#endif \ No newline at end of file diff --git a/Armory/Armory/ClassDet.h b/Armory/Armory/ClassDet.h new file mode 100644 index 0000000..510cbb4 --- /dev/null +++ b/Armory/Armory/ClassDet.h @@ -0,0 +1,64 @@ +#ifndef ClassDet_h +#define ClassDet_h + +#include + +#define MAXMULTI 1000 + +class Det{ +public: + Det(): multi(0) {Clear(); } + + unsigned short multi; // max 65535 + unsigned short id[MAXMULTI]; + unsigned short ch[MAXMULTI]; + unsigned short e[MAXMULTI]; + unsigned long long t[MAXMULTI]; + + unsigned short sn[MAXMULTI]; + unsigned short digiCh[MAXMULTI]; + + unsigned short index[MAXMULTI]; // id * nCh + ch; + bool used[MAXMULTI]; + + void Clear(){ + multi = 0; + for( int i = 0; i < MAXMULTI; i++){ + id[i] = 0; + ch[i] = 0; + e[i] = 0; + t[i] = 0; + index[i] = 0; + sn[i] = 0; + digiCh[i] = 0; + used[i] = false; + } + } + + void Print(){ + printf("=============================== multi : %u\n", multi); + for( int i = 0; i < multi; i++) { + printf(" %3d | %2d-%-2d(%5d) %5u %15llu \n", i, id[i], ch[i], index[i], e[i], t[i]); + } + } + + void SetDetDimension(unsigned short maxID, unsigned maxCh){ + nID = maxID; + nCh = maxCh; + } + + void CalIndex(){ + for( int i = 0; i < multi; i++){ + index[i] = id[i] * nCh + ch[i] ; + } + } + +private: + + unsigned short nID; + unsigned short nCh; + +}; + + +#endif diff --git a/Armory/Armory/ClassPC1An.h b/Armory/Armory/ClassPC1An.h new file mode 100644 index 0000000..8e06560 --- /dev/null +++ b/Armory/Armory/ClassPC1An.h @@ -0,0 +1,246 @@ +#ifndef ClassPC_h +#define ClassPC_h + +#include +#include +#include +#include + +struct PCHit_1An{ + std::pair nearestWire; // anode, cathode + std::pair nearestDist; // anode, cathode + + short nextNearestWire; // cathode + double nextNearestDist; // cathode + + void Clear(){ + nearestWire.first = -1; + nearestWire.second = -1; + nearestDist.first = 999999999; + nearestDist.second = 999999999; + nextNearestWire= -1; + nextNearestDist = 999999999; + } +}; + +//!######################################################## +class PC{ // proportional wire +public: + PC(){ ClearHitInfo();}; + ~PC(){}; + + PCHit_1An GetHitInfo() const {return hitInfo;} + std::pair GetNearestID() const {return hitInfo.nearestWire;} + std::pair GetNearestDistance() const {return hitInfo.nearestDist;} + short Get2ndNearestID() const {return hitInfo.nextNearestWire;} + double Get2ndNearestDistance() const {return hitInfo.nextNearestDist;} + + TVector3 GetTrackPos() const {return trackPos;} + TVector3 GetTrackVec() const {return trackVec;} + double GetTrackTheta() const {return trackVec.Theta();} + double GetTrackPhi() const {return trackVec.Phi();} + double GetZ0(); + + int GetNumWire() const {return nWire;} + double GetDeltaAngle() const {return dAngle;} + double GetAnodeLength() const {return anodeLength;} + double GetCathodeLength() const {return cathodeLength;} + TVector3 GetAnodeDn(short id) const {return An[id].first;} + TVector3 GetAnodeUp(short id) const {return An[id].second;} + TVector3 GetCathodeDn(short id) const {return Ca[id].first;} + TVector3 GetCathodeUp(short id) const {return Ca[id].second;} + + TVector3 GetAnodneMid(short id) const {return (An[id].first + An[id].second) * 0.5; } + double GetAnodeTheta(short id) const {return (An[id].first - An[id].second).Theta();} + double GetAnodePhi(short id) const {return (An[id].first - An[id].second).Phi();} + + TVector3 GetCathodneMid(short id) const {return (Ca[id].first + Ca[id].second) * 0.5; } + double GetCathodeTheta(short id) const {return (Ca[id].first - Ca[id].second).Theta();} + double GetCathodePhi(short id) const {return (Ca[id].first - Ca[id].second).Phi();} + + void ClearHitInfo(); + void ConstructGeo(); + void FindWireID(TVector3 pos, TVector3 direction, bool verbose = false); + void CalTrack3(TVector3 sx3Pos, PCHit_1An hitInfo, double sigmaA = 0, double sigmaC = 0, bool verbose = false); + + void Print(){ + printf(" The nearest | Anode: %2d(%5.2f) Cathode: %2d(%5.2f)\n", hitInfo.nearestWire.first, + hitInfo.nearestDist.first, + hitInfo.nearestWire.second, + hitInfo.nearestDist.second); + + printf(" The 2nd nearest Cathode: %2d(%5.2f)\n", hitInfo.nextNearestWire, + hitInfo.nextNearestDist); + } + +private: + + // PCHitInfo hitInfo; + PCHit_1An hitInfo; + + TVector3 trackPos; + TVector3 trackVec; + + const int nWire = 24; + const int wireShift = 3; + const float zLen = 380; //mm + const float radiusA = 37; + const float radiusC = 43; + + double dAngle; + double anodeLength; + double cathodeLength; + + std::vector> An; // the anode wire position vector in space + std::vector> Ca; // the cathode wire position vector in space + + double Distance(TVector3 a1, TVector3 a2, TVector3 b1, TVector3 b2){ + TVector3 na = a1 - a2; + TVector3 nb = b1 - b2; + TVector3 nd = (na.Cross(nb)).Unit(); + return TMath::Abs(nd.Dot(a1-b2)); + } + +}; + +inline void PC::ClearHitInfo(){ + hitInfo.Clear(); +} + +inline void PC::ConstructGeo(){ + + An.clear(); + Ca.clear(); + + std::pair p1; // anode + std::pair q1; // cathode + + //anode and cathode start at pos-Y axis and count in right-Hand + //anode wire shift is right-hand. + //cathode wire shift is left-hand. + + for(int i = 0; i < nWire; i++ ){ + // Anode rotate right-hand + p1.first.SetXYZ( radiusA * TMath::Cos( TMath::TwoPi() / nWire * (i) + TMath::PiOver2()), + radiusA * TMath::Sin( TMath::TwoPi() / nWire * (i) + TMath::PiOver2()), + zLen/2); + p1.second.SetXYZ( radiusA * TMath::Cos( TMath::TwoPi() / nWire * (i + wireShift) + TMath::PiOver2()), + radiusA * TMath::Sin( TMath::TwoPi() / nWire * (i + wireShift) + TMath::PiOver2()), + -zLen/2); + An.push_back(p1); + + // Cathod rotate left-hand + q1.first.SetXYZ( radiusC * TMath::Cos( TMath::TwoPi() / nWire * (i) + TMath::PiOver2()), + radiusC * TMath::Sin( TMath::TwoPi() / nWire * (i) + TMath::PiOver2()), + zLen/2); + q1.second.SetXYZ( radiusC * TMath::Cos( TMath::TwoPi() / nWire * (i - wireShift) + TMath::PiOver2()), + radiusC * TMath::Sin( TMath::TwoPi() / nWire * (i - wireShift) + TMath::PiOver2()), + -zLen/2); + Ca.push_back(q1); + } + + dAngle = wireShift * TMath::TwoPi() / nWire; + anodeLength = TMath::Sqrt( zLen*zLen + TMath::Power(2* radiusA * TMath::Sin(dAngle/2),2) ); + cathodeLength = TMath::Sqrt( zLen*zLen + TMath::Power(2* radiusC * TMath::Sin(dAngle/2),2) ); +} + +inline void PC::FindWireID(TVector3 pos, TVector3 direction, bool verbose ){ + + hitInfo.Clear(); + double phi = direction.Phi(); + + for( int i = 0; i < nWire; i++){ + + double disA = 99999999; + double phiS = An[i].first.Phi() - TMath::PiOver4(); + double phiL = An[i].second.Phi() + TMath::PiOver4(); + // printf("A%2d: %f %f | %f\n", i, phiS * TMath::RadToDeg(), phiL * TMath::RadToDeg(), phi * TMath::RadToDeg()); + if( phi > 0 && phiS > phiL ) phiL = phiL + TMath::TwoPi(); + if( phi < 0 && phiS > phiL ) phiS = phiS - TMath::TwoPi(); + + if( phiS < phi && phi < phiL) { + disA = Distance( pos, pos + direction, An[i].first, An[i].second); + if( disA < hitInfo.nearestDist.first ){ + hitInfo.nearestDist.first = disA; + hitInfo.nearestWire.first = i; + } + } + + double disC = 99999999; + phiS = Ca[i].second.Phi()- TMath::PiOver4(); + phiL = Ca[i].first.Phi() + TMath::PiOver4(); + // printf("C%2d: %f %f\n", i, phiS * TMath::RadToDeg(), phiL * TMath::RadToDeg()); + if( phi > 0 && phiS > phiL ) phiL = phiL + TMath::TwoPi(); + if( phi < 0 && phiS > phiL ) phiS = phiS - TMath::TwoPi(); + + if(phiS < phi && phi < phiL) { + disC = Distance( pos, pos + direction, Ca[i].first, Ca[i].second); + if( disC < hitInfo.nearestDist.second ){ + hitInfo.nearestDist.second = disC; + hitInfo.nearestWire.second = i; + } + } + + if(verbose) printf(" %2d | %8.2f, %8.2f\n", i, disA, disC); + } + + short cathode1 = hitInfo.nearestWire.second; + short ccc1 = cathode1 - 1; if( ccc1 < 0 ) ccc1 += nWire; + short ccc2 = (cathode1 + 1) % nWire; + + double haha1 = Distance( pos, pos + direction, Ca[ccc1].first, Ca[ccc1].second); + double haha2 = Distance( pos, pos + direction, Ca[ccc2].first, Ca[ccc2].second); + if( haha1 < haha2){ + hitInfo.nextNearestWire = ccc1; + hitInfo.nextNearestDist = haha1; + }else{ + hitInfo.nextNearestWire = ccc2; + hitInfo.nextNearestDist= haha2; + } + + if( verbose ) Print(); +} + + +inline void PC::CalTrack3(TVector3 sx3Pos, PCHit_1An hitInfo, double sigmaA, double sigmaC, bool verbose){ + + trackPos = sx3Pos; + + double p1 = TMath::Abs(hitInfo.nearestDist.first + gRandom->Gaus(0, sigmaA)); + short anodeID1 = hitInfo.nearestWire.first; + + double q1 = TMath::Abs(hitInfo.nearestDist.second + gRandom->Gaus(0, sigmaC)); + double q2 = TMath::Abs(hitInfo.nextNearestDist+ gRandom->Gaus(0, sigmaC)); + double fracC = q1 / (q1 + q2); + short cathodeID1 = hitInfo.nearestWire.second; + short cathodeID2 = hitInfo.nextNearestWire; + TVector3 shiftC1 = (Ca[cathodeID2].first - Ca[cathodeID1].first) * fracC; + TVector3 shiftC2 = (Ca[cathodeID2].second - Ca[cathodeID1].second) * fracC; + + TVector3 a1 = An[anodeID1].first; + + TVector3 c1 = Ca[cathodeID1].first + shiftC1; + TVector3 c2 = Ca[cathodeID1].second + shiftC2; + + TVector3 n1 = (sx3Pos - a1).Unit(); + TVector3 n2 = (c1 - c2).Cross((sx3Pos - c2)).Unit(); + + // if the handiness of anode and cathode revered, it should be n2 cross n1 + trackVec = (n2.Cross(n1)).Unit(); + + if( verbose ) printf("Theta, Phi = %f, %f \n", trackVec.Theta() *TMath::RadToDeg(), trackVec.Phi()*TMath::RadToDeg()); + +} + +inline double PC::GetZ0(){ + + double x = trackPos.X(); + double y = trackPos.Y(); + double rho = TMath::Sqrt(x*x + y*y); + double theta = trackVec.Theta(); + + return trackPos.Z() - rho / TMath::Tan(theta); + +} + +#endif \ No newline at end of file diff --git a/Armory/Armory/ClassPW.h b/Armory/Armory/ClassPW.h new file mode 100644 index 0000000..92e015c --- /dev/null +++ b/Armory/Armory/ClassPW.h @@ -0,0 +1,315 @@ +#ifndef ClassPW_h +#define ClassPW_h + +#include +#include +#include +#include + +struct PWHitInfo +{ + std::pair nearestWire; // anode, cathode + std::pair nearestDist; // anode, cathode + + std::pair nextNearestWire; // anode, cathode + std::pair nextNearestDist; // anode, cathode + + void Clear() + { + nearestWire.first = -1; + nearestWire.second = -1; + nearestDist.first = 999999999; + nearestDist.second = 999999999; + nextNearestWire.first = -1; + nextNearestWire.second = -1; + nextNearestDist.first = 999999999; + nextNearestDist.second = 999999999; + } +}; + +struct Coord +{ + float x, y, z; + Coord() : x(0), y(0), z(0) {} + Coord(const TVector3 &vec) + { + x = vec.X(); // TVector3's X() returns the x-coordinate + y = vec.Y(); // TVector3's Y() returns the y-coordinate + z = vec.Z(); // TVector3's Z() returns the z-coordinate + } +}; + +//! ######################################################## +class PW +{ // proportional wire +public: + PW() { ClearHitInfo(); }; + ~PW() {}; + + PWHitInfo GetHitInfo() const { return hitInfo; } + std::pair GetNearestID() const { return hitInfo.nearestWire; } + std::pair GetNearestDistance() const { return hitInfo.nearestDist; } + std::pair Get2ndNearestID() const { return hitInfo.nextNearestWire; } + std::pair Get2ndNearestDistance() const { return hitInfo.nextNearestDist; } + + std::vector> An; // the anode wire position vector in space + std::vector> Ca; // the cathode wire position vector in space + + TVector3 GetTrackPos() const { return trackPos; } + TVector3 GetTrackVec() const { return trackVec; } + double GetTrackTheta() const { return trackVec.Theta(); } + double GetTrackPhi() const { return trackVec.Phi(); } + double GetZ0(); + + int GetNumWire() const { return nWire; } + double GetDeltaAngle() const { return dAngle; } + double GetAnodeLength() const { return anodeLength; } + double GetCathodeLength() const { return cathodeLength; } + TVector3 GetAnodeDn(short id) const { return An[id].first; } + TVector3 GetAnodeUp(short id) const { return An[id].second; } + TVector3 GetCathodeDn(short id) const { return Ca[id].first; } + TVector3 GetCathodeUp(short id) const { return Ca[id].second; } + + TVector3 GetAnodneMid(short id) const { return (An[id].first + An[id].second) * 0.5; } + double GetAnodeTheta(short id) const { return (An[id].first - An[id].second).Theta(); } + double GetAnodePhi(short id) const { return (An[id].first - An[id].second).Phi(); } + + TVector3 GetCathodneMid(short id) const { return (Ca[id].first + Ca[id].second) * 0.5; } + double GetCathodeTheta(short id) const { return (Ca[id].first - Ca[id].second).Theta(); } + double GetCathodePhi(short id) const { return (Ca[id].first - Ca[id].second).Phi(); } + + void ClearHitInfo(); + void ConstructGeo(); + void FindWireID(TVector3 pos, TVector3 direction, bool verbose = false); + void CalTrack(TVector3 sx3Pos, int anodeID, int cathodeID, bool verbose = false); + void CalTrack2(TVector3 sx3Pos, TVector3 anodeInt, bool verbose = false); + + void Print() + { + printf(" The nearest | Anode: %2d(%5.2f) Cathode: %2d(%5.2f)\n", hitInfo.nearestWire.first, + hitInfo.nearestDist.first, + hitInfo.nearestWire.second, + hitInfo.nearestDist.second); + + printf(" The 2nd nearest | Anode: %2d(%5.2f) Cathode: %2d(%5.2f)\n", hitInfo.nextNearestWire.first, + hitInfo.nextNearestDist.first, + hitInfo.nextNearestWire.second, + hitInfo.nextNearestDist.second); + } + +private: + PWHitInfo hitInfo; + + TVector3 trackPos; + TVector3 trackVec; + + const int nWire = 24; + const int wireShift = 3; + const float zLen = 380; // mm + const float radiusA = 37; + const float radiusC = 43; + + double dAngle; + double anodeLength; + double cathodeLength; + + // std::vector> An; // the anode wire position vector in space + // std::vector> Ca; // the cathode wire position vector in space + + double Distance(TVector3 a1, TVector3 a2, TVector3 b1, TVector3 b2) + { + TVector3 na = a1 - a2; + TVector3 nb = b1 - b2; + TVector3 nd = (na.Cross(nb)).Unit(); + return TMath::Abs(nd.Dot(a1 - b2)); + } +}; + +inline void PW::ClearHitInfo() +{ + hitInfo.Clear(); +} + +inline void PW::ConstructGeo() +{ + + An.clear(); + Ca.clear(); + + std::pair p1; // anode + std::pair q1; // cathode + + // anode and cathode start at pos-Y axis and count in right-Hand + // anode wire shift is right-hand. + // cathode wire shift is left-hand. + + for (int i = 0; i < nWire; i++) + { + // Anode rotate right-hand + p1.first.SetXYZ(radiusA * TMath::Cos(TMath::TwoPi() / nWire * (i) + TMath::PiOver2()), + radiusA * TMath::Sin(TMath::TwoPi() / nWire * (i) + TMath::PiOver2()), + zLen / 2); + p1.second.SetXYZ(radiusA * TMath::Cos(TMath::TwoPi() / nWire * (i + wireShift) + TMath::PiOver2()), + radiusA * TMath::Sin(TMath::TwoPi() / nWire * (i + wireShift) + TMath::PiOver2()), + -zLen / 2); + An.push_back(p1); + + // Cathod rotate left-hand with the 3 wire offset accounted for (+1 from the calculated offset from the PC coincidence spectrum) + q1.first.SetXYZ(radiusC * TMath::Cos(TMath::TwoPi() / nWire * (i + wireShift + 1) + TMath::PiOver2()), + radiusC * TMath::Sin(TMath::TwoPi() / nWire * (i + wireShift + 1) + TMath::PiOver2()), + zLen / 2); + q1.second.SetXYZ(radiusC * TMath::Cos(TMath::TwoPi() / nWire * (i + 1) + TMath::PiOver2()), + radiusC * TMath::Sin(TMath::TwoPi() / nWire * (i + 1) + TMath::PiOver2()), + -zLen / 2); + Ca.push_back(q1); + } + // correcting for the fact that the order of the cathode wires is reversed + std::reverse(Ca.begin(), Ca.end()); + // adjusting for the 3 wire offset, the rbegin and rend are used as the rotation of the wires is done in the opposite direction i.e. 1,2,3 -> 3,1,2 + // NOT NECESSARY ANY MORE, HAS BEEN IMCORPORATED INTO THE WIREOFFSET IN THE BEGINNING + // std::rotate(Ca.rbegin(), Ca.rbegin() + 4, Ca.rend()); + + dAngle = wireShift * TMath::TwoPi() / nWire; + anodeLength = TMath::Sqrt(zLen * zLen + TMath::Power(2 * radiusA * TMath::Sin(dAngle / 2), 2)); + cathodeLength = TMath::Sqrt(zLen * zLen + TMath::Power(2 * radiusC * TMath::Sin(dAngle / 2), 2)); +} + +inline void PW::FindWireID(TVector3 pos, TVector3 direction, bool verbose) +{ + + hitInfo.Clear(); + double phi = direction.Phi(); + + for (int i = 0; i < nWire; i++) + { + + double disA = 99999999; + double phiS = An[i].first.Phi() - TMath::PiOver4(); + double phiL = An[i].second.Phi() + TMath::PiOver4(); + // printf("A%2d: %f %f | %f\n", i, phiS * TMath::RadToDeg(), phiL * TMath::RadToDeg(), phi * TMath::RadToDeg()); + if (phi > 0 && phiS > phiL) + phiL = phiL + TMath::TwoPi(); + if (phi < 0 && phiS > phiL) + phiS = phiS - TMath::TwoPi(); + + if (phiS < phi && phi < phiL) + { + disA = Distance(pos, pos + direction, An[i].first, An[i].second); + if (disA < hitInfo.nearestDist.first) + { + hitInfo.nearestDist.first = disA; + hitInfo.nearestWire.first = i; + } + } + + double disC = 99999999; + phiS = Ca[i].second.Phi() - TMath::PiOver4(); + phiL = Ca[i].first.Phi() + TMath::PiOver4(); + // printf("C%2d: %f %f\n", i, phiS * TMath::RadToDeg(), phiL * TMath::RadToDeg()); + if (phi > 0 && phiS > phiL) + phiL = phiL + TMath::TwoPi(); + if (phi < 0 && phiS > phiL) + phiS = phiS - TMath::TwoPi(); + + if (phiS < phi && phi < phiL) + { + disC = Distance(pos, pos + direction, Ca[i].first, Ca[i].second); + if (disC < hitInfo.nearestDist.second) + { + hitInfo.nearestDist.second = disC; + hitInfo.nearestWire.second = i; + } + } + + if (verbose) + printf(" %2d | %8.2f, %8.2f\n", i, disA, disC); + } + + //==== find the 2nd nearest wire + short anode1 = hitInfo.nearestWire.first; + short aaa1 = anode1 - 1; + if (aaa1 < 0) + aaa1 += nWire; + short aaa2 = (anode1 + 1) % nWire; + + double haha1 = Distance(pos, pos + direction, An[aaa1].first, An[aaa1].second); + double haha2 = Distance(pos, pos + direction, An[aaa2].first, An[aaa2].second); + if (haha1 < haha2) + { + hitInfo.nextNearestWire.first = aaa1; + hitInfo.nextNearestDist.first = haha1; + } + else + { + hitInfo.nextNearestWire.first = aaa2; + hitInfo.nextNearestDist.first = haha2; + } + + short cathode1 = hitInfo.nearestWire.second; + short ccc1 = cathode1 - 1; + if (ccc1 < 0) + ccc1 += nWire; + short ccc2 = (cathode1 + 1) % nWire; + + haha1 = Distance(pos, pos + direction, Ca[ccc1].first, Ca[ccc1].second); + haha2 = Distance(pos, pos + direction, Ca[ccc2].first, Ca[ccc2].second); + if (haha1 < haha2) + { + hitInfo.nextNearestWire.second = ccc1; + hitInfo.nextNearestDist.second = haha1; + } + else + { + hitInfo.nextNearestWire.second = ccc2; + hitInfo.nextNearestDist.second = haha2; + } + + if (verbose) + Print(); +} + +inline void PW::CalTrack(TVector3 sx3Pos, int anodeID, int cathodeID, bool verbose) +{ + + trackPos = sx3Pos; + + TVector3 n1 = (An[anodeID].first - An[anodeID].second).Cross((sx3Pos - An[anodeID].second)).Unit(); + TVector3 n2 = (Ca[cathodeID].first - Ca[cathodeID].second).Cross((sx3Pos - Ca[cathodeID].second)).Unit(); + + // if the handiness of anode and cathode revered, it should be n2 cross n1 + trackVec = (n2.Cross(n1)).Unit(); + + if (verbose) + printf("Theta, Phi = %f, %f \n", trackVec.Theta() * TMath::RadToDeg(), trackVec.Phi() * TMath::RadToDeg()); +} + + +inline void PW::CalTrack2(TVector3 siPos, TVector3 anodeInt, bool verbose) +{ + + double mx, my; + double z; + mx = siPos.X() / (siPos.X() - anodeInt.X()); + my = siPos.Y() / (siPos.Y() - anodeInt.Y()); + z=siPos.Z() + mx * (anodeInt.Z() - siPos.Z()); + // if (mx == my) + { + trackVec=TVector3(0,0,z); + } + + if (verbose) + printf("X slope = %f and Y slope = %f \n", mx, my); +} + +inline double PW::GetZ0() +{ + + double x = trackPos.X(); + double y = trackPos.Y(); + double rho = TMath::Sqrt(x * x + y * y); + double theta = trackVec.Theta(); + + return trackVec.Z(); +} + +#endif \ No newline at end of file diff --git a/Armory/Armory/ClassSX3.h b/Armory/Armory/ClassSX3.h new file mode 100644 index 0000000..3586292 --- /dev/null +++ b/Armory/Armory/ClassSX3.h @@ -0,0 +1,257 @@ +#ifndef ClassSX3_h +#define ClassSX3_h + +#include +#include +#include +#include + +class SX3{ +public: + SX3(){Clear();}; + ~SX3(){} + + short GetID() const {return id;} + short GetChUp() const {return chUp;} + short GetChDn() const {return chDn;} + short GetChBk() const {return chBk;} + + TVector3 GetHitPos() const {return hitPos;} + TVector3 GetHitPosWithSigma(double sigmaY_mm, double sigmaZ_mm); + + double GetZFrac() const {return zFrac;} // range from -0.5 to 0.5 + + void Clear(); + void ConstructGeo(); + void FindSX3Pos(TVector3 pos, TVector3 direction, bool verbose = false); + void CalSX3Pos(unsigned short ID, unsigned short chUp, unsigned short chDown, unsigned short chBack, float eUp, float eDown); + + double GetNumDet() const {return numDet;} + double GetWidth() const {return width;} + double GetLength() const {return length;} + TVector3 GetDnL(short id) const {return SDn[id].first; } // lower strip ID + TVector3 GetDnH(short id) const {return SDn[id].second; } // higher strip ID + TVector3 GetUpL(short id) const {return SUp[id].first; } // lower strip ID + TVector3 GetUpH(short id) const {return SUp[id].second; } // higher strip ID + + TVector3 GetDnMid(short id) const { return (SDn[id].first + SDn[id].second)*0.5;} + TVector3 GetUpMid(short id) const { return (SUp[id].first + SUp[id].second)*0.5;} + + double GetDetPhi(short id) const { return (SUp[id].second - SUp[id].first).Phi();} + + void Print(){ + if( id == -1 ){ + printf("Did not hit any SX3.\n"); + }else{ + printf("ID: %d, U,D,B: %d %d %d| zFrac : %.2f\n", id, chUp, chDn, chBk, zFrac); + printf("Hit Pos: %.2f, %.2f, %.2f\n", hitPos.X(), hitPos.Y(), hitPos.Z()); + } + } + + // void CalZFrac(){ + // zFrac = (eUp - eDn)/(eUp + eDn); + // } + +private: + + const int numDet = 12; + const float radius = 88; + const float width = 40; + const float length = 75; + const float gap = 46; + + short id; // -1 when no hit + short chUp; + short chDn; + short chBk; + + double zFrac; // from +1 (downstream) to -1 (upstream) + + double eUp; + double eDn; + double eBk; + + TVector3 hitPos; + + std::vector> SDn; // coners of the SX3 0-11, z = mid point + std::vector> SUp; // coners of the SX3 12-23, z = mid point + std::vector SNorml; // normal of the SX3 (outward) + + + std::pair Intersect(TVector3 p1, TVector3 p2, TVector3 q1, TVector3 q2, bool verbose){ + + //see https://nukephysik101.wordpress.com/2023/12/30/intersect-between-2-line-segments/ + //zero all z-component + TVector3 a0 = p1; a0.SetZ(0); + TVector3 a1 = p2; a1.SetZ(0); + + TVector3 b0 = q1; b0.SetZ(0); + TVector3 b1 = q2; b1.SetZ(0); + + double A = ((b0-b1).Cross(a0-a1)).Mag(); + + double h = ((b0-a0).Cross(b1-a0)).Z()/ A; + double k = ((a1-b0).Cross(a0-b0)).Z()/ A; + + if( verbose ) printf(" ----h, k : %f, %f\n", h, k); + + return std::pair(h,k); + } + +}; + +inline void SX3::Clear(){ + id = -1; + chUp = -1; + chDn = -1; + chBk = -1; + zFrac = TMath::QuietNaN(); + + eUp = TMath::QuietNaN(); + eDn = TMath::QuietNaN(); + eBk = TMath::QuietNaN(); + + SDn.clear(); + SUp.clear(); +} + +inline void SX3::ConstructGeo(){ + TVector3 sa, sb, sc, sn; + + for(int i = 0; i < numDet; i++){ + sa.SetXYZ( radius, -width/2, gap/2 + length/2 ); + sb.SetXYZ( radius, width/2, gap/2 + length/2 ); + + double rot = TMath::TwoPi() / numDet * (i - 0.5) - TMath::PiOver2(); + + sa.RotateZ( rot ); + sb.RotateZ( rot ); + SDn.push_back(std::pair(sa,sb)); + + sc.SetXYZ( radius, -width/2, gap/2 ); + sc.RotateZ( rot ); + + sn = ((sc-sa).Cross(sb-sa)).Unit(); + SNorml.push_back(sn); + + sa.SetXYZ( radius, -width/2, -gap/2 - length/2 ); + sb.SetXYZ( radius, width/2, -gap/2 - length/2 ); + + sa.RotateZ( rot ); + sb.RotateZ( rot ); + SUp.push_back(std::pair(sa,sb)); + } +} + + +inline void SX3::FindSX3Pos(TVector3 pos, TVector3 direction, bool verbose){ + + id = -1; + for( int i = 0 ; i < numDet; i++){ + + if(verbose) printf(" %d ", i); + std::pair frac = Intersect( pos, pos + direction, SDn[i].first, SDn[i].second, verbose); + + + if( frac.second < 0 || frac.second > 1 ) continue; + hitPos = pos + frac.first * direction; + + double dis = hitPos.Dot(SNorml[i]); + + if(verbose) { + printf("reduced distance : %f\n", dis); + printf(" %d*", (i+1)%numDet); + Intersect( pos, pos + direction, SDn[(i+1)%numDet].first, SDn[(i+1)%numDet].second, verbose); + } + + if( TMath::Abs(dis - radius) > 0.1 ) continue; + + chDn = 2 * TMath::Floor(frac.second * 4); + chUp = chDn + 1; + + double zPos = hitPos.Z(); + if( (gap/2 < zPos && zPos < gap/2 + length ) || (-gap/2 - length < zPos && zPos < -gap/2 ) ){ + + id = zPos > 0 ? i : i + 12; + + zFrac = zPos > 0 ? (zPos - gap/2. - length/2.)/length : (zPos - ( - gap/2. - length/2.) )/length ; + + chBk = TMath::Floor( (zFrac + 0.5) * 4 ) + 8; + + if( verbose) Print(); + return ; + + }else{ + if( verbose ) printf(" zPos out of sensitive region\n"); + } + } + + if( verbose) Print(); +} + +inline TVector3 SX3::GetHitPosWithSigma(double sigmaY_mm, double sigmaZ_mm){ + + double phi = SNorml[id%numDet].Phi(); + + TVector3 haha = hitPos; + haha.RotateZ(-phi); + + double y = haha.Y() + gRandom->Gaus(0, sigmaY_mm); + if( sigmaY_mm < 0 ){ + double deltaW = width/4; + y = TMath::Floor((haha.Y()-deltaW)/deltaW)*deltaW + deltaW*1.5; // when ever land on each strip, set the position to be center of the strip. + if( y >= 25 ) y = 15; + } + + double z = haha.Z() + gRandom->Gaus(0, sigmaZ_mm); + if( sigmaZ_mm < 0 ){ + haha.Z(); + double delta = length/4; + int sign = z > 0 ? 1 : -1; + z = TMath::Floor( (abs(z)-gap/2)/delta )*delta + 0.5 * delta + gap/2; + if( z >= 107.375 ) z = 88.625; + z = sign * z; + } + + haha.SetY(y); + haha.SetZ(z); + haha.RotateZ(phi); + + return haha; + +} + + +inline void SX3::CalSX3Pos(unsigned short ID, unsigned short chUp, unsigned short chDown, unsigned short chBack, float eUp, float eDown){ + + hitPos.Clear(); + + + if( (chUp - chDown) != 1 || (chDown % 2) != 0) return ; + + int reducedID = ID % numDet; + + TVector3 sa, sb; + + if( ID < numDet ){ //down + sa = SDn[reducedID].second; + sb = SDn[reducedID].first; + }else{ + sa = SUp[reducedID].second; + sb = SUp[reducedID].first; + } + + hitPos.SetX( (sb.X() - sa.X()) * chUp/8 + sa.X()); + hitPos.SetY( (sb.Y() - sa.Y()) * chUp/8 + sa.Y()); + + if( eUp == 0 || eDown == 0 ){ + hitPos.SetZ( sa.Z() + (2*(chBk - 7)-1) * length / 8 ); + }else{ + double frac = (eUp - eDown)/(eUp + eDown); // from +1 (downstream) to -1 (upstream) + double zPos = sa.Z() + length * frac/2; + hitPos.SetZ( zPos ); + } + +} + +#endif \ No newline at end of file diff --git a/Armory/Armory/ClassTransfer.h b/Armory/Armory/ClassTransfer.h new file mode 100644 index 0000000..c12c43f --- /dev/null +++ b/Armory/Armory/ClassTransfer.h @@ -0,0 +1,468 @@ +#ifndef ClassTransfer_h +#define ClassTransfer_h + +#include "TBenchmark.h" +#include "TLorentzVector.h" +#include "TVector3.h" +#include "TMath.h" +#include "TFile.h" +#include "TTree.h" +#include "TRandom.h" +#include "TMacro.h" +#include "TGraph.h" +#include +#include + +#include "Isotope.h" + +class ReactionConfig{ + +public: + + ReactionConfig(){} + ~ReactionConfig(){} + + int beamA, beamZ; + int targetA, targetZ; + int recoilLightA, recoilLightZ; + int recoilHeavyA, recoilHeavyZ; + + float beamEnergy; ///MeV/u + float beamEnergySigma; ///beam-energy_sigma_in_MeV/u + float beamAngle; ///beam-angle_in_mrad + float beamAngleSigma; ///beam-emittance_in_mrad + float beamX; ///x_offset_of_Beam_in_mm + float beamY; ///y_offset_of_Beam_in_mm + int numEvents; ///number_of_Event_being_generated + bool isTargetScattering; ///isTargetScattering + float targetDensity; ///target_density_in_g/cm3 + float targetThickness; ///targetThickness_in_cm + std::string beamStoppingPowerFile; ///stopping_power_for_beam + std::string recoilLightStoppingPowerFile; ///stopping_power_for_light_recoil + std::string recoilHeavyStoppingPowerFile; ///stopping_power_for_heavy_recoil + bool isDecay; ///isDacay + int heavyDecayA; ///decayNucleus_A + int heavyDecayZ; ///decayNucleus_Z + bool isRedo; ///isReDo + std::vector beamEx; ///excitation_energy_of_A[MeV] + + + void SetReaction(int beamA, int beamZ, + int targetA, int targetZ, + int recoilA, int recoilZ, float beamEnergy_AMeV){ + this->beamA = beamA; + this->beamZ = beamZ; + this->targetA = targetA; + this->targetZ = targetZ; + this->recoilLightA = recoilA; + this->recoilLightZ = recoilZ; + + recoilHeavyA = this->beamA + this->targetA - recoilLightA; + recoilHeavyZ = this->beamZ + this->targetZ - recoilLightZ; + + } + + void LoadReactionConfig(TMacro * macro){ + + if( macro == NULL ) return ; + + int numLine = macro->GetListOfLines()->GetSize(); + + for( int i = 0; i < numLine; i ++){ + + std::vector str = SplitStr(macro->GetListOfLines()->At(i)->GetName(), " "); + + ///printf("%d | %s\n", i, str[0].c_str()); + + if( str[0].find_first_of("#") == 0 ) break; + + if( i == 0 ) beamA = atoi(str[0].c_str()); + if( i == 1 ) beamZ = atoi(str[0].c_str()); + if( i == 2 ) targetA = atoi(str[0].c_str()); + if( i == 3 ) targetZ = atoi(str[0].c_str()); + if( i == 4 ) recoilLightA = atoi(str[0].c_str()); + if( i == 5 ) recoilLightZ = atoi(str[0].c_str()); + if( i == 6 ) beamEnergy = atof(str[0].c_str()); + if( i == 7 ) beamEnergySigma = atof(str[0].c_str()); + if( i == 8 ) beamAngle = atof(str[0].c_str()); + if( i == 9 ) beamAngleSigma = atof(str[0].c_str()); + if( i == 10 ) beamX = atof(str[0].c_str()); + if( i == 11 ) beamY = atof(str[0].c_str()); + if( i == 12 ) numEvents = atoi(str[0].c_str()); + if( i == 13 ) { + if( str[0].compare("false") == 0 ) isTargetScattering = false; + if( str[0].compare("true") == 0 ) isTargetScattering = true; + } + if( i == 14 ) targetDensity = atof(str[0].c_str()); + if( i == 15 ) targetThickness = atof(str[0].c_str()); + if( i == 16 ) beamStoppingPowerFile = str[0]; + if( i == 17 ) recoilLightStoppingPowerFile = str[0]; + if( i == 18 ) recoilHeavyStoppingPowerFile = str[0]; + if( i == 19 ) { + if( str[0].compare("false") == 0 ) isDecay = false; + if( str[0].compare("true") == 0 ) isDecay = true; + } + if( i == 20 ) heavyDecayA = atoi(str[0].c_str()); + if( i == 21 ) heavyDecayZ = atoi(str[0].c_str()); + if( i == 22 ) { + if( str[0].compare("false") == 0 ) isRedo = false; + if( str[0].compare("true" ) == 0 ) isRedo = true; + } + + if( i >= 23) { + beamEx.push_back( atof(str[0].c_str()) ); + } + } + + recoilHeavyA = beamA + targetA - recoilLightA; + recoilHeavyZ = beamZ + targetZ - recoilLightZ; + + } + + void PrintReactionConfig(){ + + printf("=====================================================\n"); + printf(" beam : A = %3d, Z = %2d \n", beamA, beamZ); + printf(" target : A = %3d, Z = %2d \n", targetA, targetZ); + printf(" light : A = %3d, Z = %2d \n", recoilLightA, recoilLightZ); + + printf(" beam Energy : %.2f +- %.2f MeV/u, dE/E = %5.2f %%\n", beamEnergy, beamEnergySigma, beamEnergySigma/beamEnergy); + printf(" Angle : %.2f +- %.2f mrad\n", beamAngle, beamAngleSigma); + printf(" offset : (x,y) = (%.2f, %.2f) mmm \n", beamX, beamY); + + printf("##### number of Simulation Events : %d \n", numEvents); + + printf(" is target scattering : %s \n", isTargetScattering ? "Yes" : "No"); + + if(isTargetScattering){ + printf(" target density : %.f g/cm3\n", targetDensity); + printf(" thickness : %.f cm\n", targetThickness); + printf(" beam stopping file : %s \n", beamStoppingPowerFile.c_str()); + printf(" recoil light stopping file : %s \n", recoilLightStoppingPowerFile.c_str()); + printf(" recoil heavy stopping file : %s \n", recoilHeavyStoppingPowerFile.c_str()); + } + + printf(" is simulate decay : %s \n", isDecay ? "Yes" : "No"); + if( isDecay ){ + printf(" heavy decay : A = %d, Z = %d \n", heavyDecayA, heavyDecayZ); + } + printf(" is Redo until hit array : %s \n", isRedo ? "Yes" : "No"); + + printf(" beam Ex : %.2f MeV \n", beamEx[0]); + for( int i = 1; i < (int) beamEx.size(); i++){ + printf(" %.2f MeV \n", beamEx[i]); + } + + printf("=====================================================\n"); + + } + +}; + +//======================================================= +//####################################################### +// Class for Transfer Reaction +// reaction notation A(a,b)B +// A = incident particle +// a = target +// b = light scattered particle +// B = heavy scattered particle +//======================================================= +class TransferReaction { +public: + TransferReaction(); + ~TransferReaction(); + + void SetA(int A, int Z, double Ex); + void Seta(int A, int Z); + void Setb(int A, int Z); + void SetB(int A, int Z); + void SetIncidentEnergyAngle(double KEA, double theta, double phi); + void SetExA(double Ex); + void SetExB(double Ex); + void SetReactionFromFile(string settingFile); + + TString GetReactionName(); + TString GetReactionName_Latex(); + + ReactionConfig GetRectionConfig() { return reaction;} + + double GetMass_A(){return mA + ExA;} + double GetMass_a(){return ma;} + double GetMass_b(){return mb;} + double GetMass_B(){return mB + ExB;} + + double GetCMTotalKE() {return Etot - mA - ma;} + double GetQValue() {return mA + ExA + ma - mb - mB - ExB;} + double GetMaxExB() {return Etot - mb - mB;} + + TLorentzVector GetPA(){return PA;} + TLorentzVector GetPa(){return Pa;} + TLorentzVector GetPb(){return Pb;} + TLorentzVector GetPB(){return PB;} + + void CalReactionConstant(); + + TLorentzVector * Event(double thetaCM, double phiCM); + + double GetEx(){return Ex;} + double GetThetaCM(){return thetaCM;} + + double GetMomentumbCM() {return p;} + double GetReactionBeta() {return beta;} + double GetReactionGamma() {return gamma;} + double GetCMTotalEnergy() {return Etot;} + +private: + + ReactionConfig reaction; + + string nameA, namea, nameb, nameB; + double thetaIN, phiIN; + double mA, ma, mb, mB; + + double TA, T; // TA = KE of A pre u, T = total energy + double ExA, ExB; + double Ex, thetaCM; //calculated Ex using inverse mapping from e and z to thetaCM + + bool isReady; + bool isBSet; + + double k; // CM Boost momentum + double beta, gamma; //CM boost beta + double Etot; + double p; // CM frame momentum of b, B + + TLorentzVector PA, Pa, Pb, PB; + + TString format(TString name); + +}; + +TransferReaction::TransferReaction(){ + + thetaIN = 0.; + phiIN = 0.; + SetA(24, 12, 0); + Seta(4,2); + Setb(1,1); + SetB(27,13); + TA = 2.5; + T = TA * reaction.beamA; + + ExA = 0; + ExB = 0; + + Ex = TMath::QuietNaN(); + thetaCM = TMath::QuietNaN(); + + CalReactionConstant(); + + TLorentzVector temp (0,0,0,0); + PA = temp; + Pa = temp; + Pb = temp; + PB = temp; + +} + +TransferReaction::~TransferReaction(){ + +} + +void TransferReaction::SetA(int A, int Z, double Ex = 0){ + Isotope temp (A, Z); + mA = temp.Mass; + reaction.beamA = A; + reaction.beamZ = Z; + ExA = Ex; + nameA = temp.Name; + isReady = false; + isBSet = true; + +} + +void TransferReaction::Seta(int A, int Z){ + Isotope temp (A, Z); + ma = temp.Mass; + reaction.targetA = A; + reaction.targetZ = Z; + namea = temp.Name; + isReady = false; + isBSet = false; +} + +void TransferReaction::Setb(int A, int Z){ + Isotope temp (A, Z); + mb = temp.Mass; + reaction.recoilLightA = A; + reaction.recoilLightZ = Z; + nameb = temp.Name; + isReady = false; + isBSet = false; +} +void TransferReaction::SetB(int A, int Z){ + Isotope temp (A, Z); + mB = temp.Mass; + reaction.recoilHeavyA = A; + reaction.recoilHeavyZ = Z; + nameB = temp.Name; + isReady = false; + isBSet = true; +} + +void TransferReaction::SetIncidentEnergyAngle(double KEA, double theta, double phi){ + this->TA = KEA; + this->T = TA * reaction.beamA; + this->thetaIN = theta; + this->phiIN = phi; + isReady = false; +} + +void TransferReaction::SetExA(double Ex){ + this->ExA = Ex; + isReady = false; +} + +void TransferReaction::SetExB(double Ex){ + this->ExB = Ex; + isReady = false; +} + +void TransferReaction::SetReactionFromFile(string settingFile){ + + TMacro * haha = new TMacro(); + if( haha->ReadFile(settingFile.c_str()) > 0 ) { + reaction.LoadReactionConfig(haha); + + SetA(reaction.beamA, reaction.beamZ); + Seta(reaction.targetA, reaction.targetZ); + Setb(reaction.recoilLightA, reaction.recoilLightZ); + SetB(reaction.recoilHeavyA, reaction.recoilHeavyZ); + + SetIncidentEnergyAngle(reaction.beamEnergy, 0, 0); + CalReactionConstant(); + }else{ + + printf("cannot read file %s.\n", settingFile.c_str()); + isReady = false; + } + +} + +TString TransferReaction::GetReactionName(){ + TString rName; + rName.Form("%s(%s,%s)%s", nameA.c_str(), namea.c_str(), nameb.c_str(), nameB.c_str()); + return rName; +} + +TString TransferReaction::format(TString name){ + if( name.IsAlpha() ) return name; + int len = name.Length(); + TString temp = name; + TString temp2 = name; + if( temp.Remove(0, len-2).IsAlpha()){ + temp2.Remove(len-2); + }else{ + temp = name; + temp.Remove(0, len-1); + temp2.Remove(len-1); + } + return "^{"+temp2+"}"+temp; +} + +TString TransferReaction::GetReactionName_Latex(){ + TString rName; + rName.Form("%s(%s,%s)%s", format(nameA).Data(), format(namea).Data(), format(nameb).Data(), format(nameB).Data()); + return rName; +} + +void TransferReaction::CalReactionConstant(){ + if( !isBSet){ + reaction.recoilHeavyA = reaction.beamA + reaction.targetA - reaction.recoilLightA; + reaction.recoilHeavyZ = reaction.beamZ + reaction.targetZ - reaction.recoilLightZ; + Isotope temp (reaction.recoilHeavyA, reaction.recoilHeavyZ); + mB = temp.Mass; + isBSet = true; + } + + k = TMath::Sqrt(TMath::Power(mA + ExA + T, 2) - (mA + ExA) * (mA + ExA)); + beta = k / (mA + ExA + ma + T); + gamma = 1 / TMath::Sqrt(1- beta * beta); + Etot = TMath::Sqrt(TMath::Power(mA + ExA + ma + T,2) - k * k); + p = TMath::Sqrt( (Etot*Etot - TMath::Power(mb + mB + ExB,2)) * (Etot*Etot - TMath::Power(mb - mB - ExB,2)) ) / 2 / Etot; + + PA.SetXYZM(0, 0, k, mA + ExA); + PA.RotateY(thetaIN); + PA.RotateZ(phiIN); + + Pa.SetXYZM(0,0,0,ma); + + isReady = true; +} + +TLorentzVector * TransferReaction::Event(double thetaCM, double phiCM) +{ + if( isReady == false ){ + CalReactionConstant(); + } + + //TLorentzVector Pa(0, 0, 0, ma); + + //---- to CM frame + TLorentzVector Pc = PA + Pa; + TVector3 b = Pc.BoostVector(); + + TVector3 vb(0,0,0); + + if( b.Mag() > 0 ){ + TVector3 v0 (0,0,0); + TVector3 nb = v0 - b; + + TLorentzVector PAc = PA; + PAc.Boost(nb); + TVector3 vA = PAc.Vect(); + + TLorentzVector Pac = Pa; + Pac.Boost(nb); + TVector3 va = Pac.Vect(); + + //--- construct vb + vb = va; + vb.SetMag(p); + + TVector3 ub = vb.Orthogonal(); + vb.Rotate(thetaCM, ub); + vb.Rotate(phiCM + TMath::PiOver2(), va); // somehow, the calculation turn the vector 90 degree. + //vb.Rotate(phiCM , va); // somehow, the calculation turn the vector 90 degree. + } + + //--- from Pb + TLorentzVector Pbc; + Pbc.SetVectM(vb, mb); + + //--- from PB + TLorentzVector PBc; + //PBc.SetVectM(vB, mB + ExB); + PBc.SetVectM(-vb, mB + ExB); + + //---- to Lab Frame + TLorentzVector Pb = Pbc; + Pb.Boost(b); + TLorentzVector PB = PBc; + PB.Boost(b); + + TLorentzVector * output = new TLorentzVector[4]; + output[0] = PA; + output[1] = Pa; + output[2] = Pb; + output[3] = PB; + + this->Pb = Pb; + this->PB = PB; + + + return output; +} + +#endif diff --git a/Armory/Armory/HistPlotter.h b/Armory/Armory/HistPlotter.h new file mode 100644 index 0000000..8bba450 --- /dev/null +++ b/Armory/Armory/HistPlotter.h @@ -0,0 +1,414 @@ +#ifndef HISTPLOTTER_H +#define HISTPLOTTER_H +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +class HistPlotter { +private: + long long barrier_count, barrier_limit; //meant to keep track of how often to call FillN() on histograms + enum {TFILE, TMEMFILE} filetype; + std::unordered_map oMap; //!< Maps std::string to all TH1, TH2 objects in the class + std::unordered_map cutsMap; //!< Maps std::string to TCutG objects held by the class + std::set folderList; //!< List of all folder names used to nest objects + std::unordered_map foldersForObjects; //!< Map that returns the folder corresponding to the object whose pointer is specified + TFile *ofile=nullptr; //!< TFile pointer for the output file + TMemFile *omfile=nullptr; //!< TFile pointer for the output memfile + + //Caches to permit FillN() calls + std::unordered_map> onedimcache; + std::unordered_map, std::vector>> twodimcache; + inline void FillN_All_Histograms(); +public: + HistPlotter(std::string outfile, std::string type); + inline void FlushToDisk(); //!< Writes all objects to file before closing, nesting objects in folders as is found necessary + inline void PrintObjects(); //!< Dump objects to std::cout for inspection + inline void ReadCuts(std::string); + inline TCutG* FindCut(std::string cut) { + return static_cast(cutsMap.at(cut)); + } + inline void set_barrier_limit(long long limit) { barrier_limit = limit; } + inline void barrier_increment() { + barrier_count++; + if(barrier_count == barrier_limit) { + FillN_All_Histograms(); + barrier_count=0; + } + } + /*! \fn void FindCut() + \brief + - Searches for a cut by name 'cut' in the internal list of cuts 'cutsMap'. Ugly fails (via unresolved at()) if such a cut isn't found. + \param filename - name of the plainxtext file containing the cut file locations and identifiers + \return Pointer to the TCutG object that matches the name. Very useful to use this as plotter.FindCut("protonbarrelpid")->IsInside(deltaE, E) for instance. + */ + + inline void SetNewTitle(std::string name, std::string title) { + auto result = oMap.find(name); //result is an iterator + if(result==oMap.end()) return; //no warnings, could be changed in future + else + static_cast(oMap.at(name))->SetTitle(title.c_str()); // set new title + } + + //Smart functions that create a new histogram if it doesn't exist. + inline void FillGraph(const std::string &name, float valuex, float valuey, float errx=0, float erry=0); + inline void Fill1D(const std::string& name,int nbinsx, float xlow, float xhigh, float value); + inline void Fill2D(const std::string& name,int nbinsx, float xlow, float xhigh + ,int nbinsy, float ylow, float yhigh, float valuex, float valuey); + inline void Fill1D(const std::string& name,int nbinsx, float xlow, float xhigh, float value, const std::string& folder); + inline void Fill2D(const std::string& name,int nbinsx, float xlow, float xhigh + ,int nbinsy, float ylow, float yhigh, float valuex, float valuey, const std::string& folder); + //TObject* findObject(std::string key); +}; + +HistPlotter::HistPlotter(std::string outfile, std::string type="") { + /*! + \brief Constructor. Opens a TFile instance with the specified filename + \param outfile : std::string that holds the desired output ROOT filename + \return None + */ + if(type=="" || type == "TFILE") { + ofile = new TFile(outfile.c_str(),"recreate"); + filetype = TFILE; + } else if(type =="TMEMFILE") { + omfile = new TMemFile(outfile.c_str(),"recreate"); + filetype=TMEMFILE; + } else { + std::cout << "Unknown type "<< type << " specified for HistPlotter (use \"TFILE\" or \"TMEMFILE\"), using default \"TFILE\" " << std::endl; + ofile = new TFile(outfile.c_str(),"recreate"); + filetype = TFILE; + } + barrier_count=0; + barrier_limit=1000; +} + +void HistPlotter::FillN_All_Histograms() { + for(auto it=oMap.begin(); it!=oMap.end(); it++ ) { + //it->first is std::string 'name', it->second is the TObject + if(it->second->InheritsFrom("TH1F")) { + //FillN(size, array-of-doubles, array-of-weights); //we set array-of-weights to (1,1,1,.. (size) + static_cast(it->second)->FillN(onedimcache[it->first].size(), //size + onedimcache[it->first].data(), //array + std::vector(onedimcache[it->first].size(),1.0).data()); //weight of ones + onedimcache[it->first].clear(); + } else if(it->second->InheritsFrom("TH2F")) { + //FillN(size, array-of-doubles, array-of-weights); //we set array-of-weights to (1,1,1,.. (size)) + static_cast(it->second)->FillN(twodimcache[it->first].first.size(), //size + twodimcache[it->first].first.data(), //x array + twodimcache[it->first].second.data(), //y array + std::vector(twodimcache[it->first].first.size(),1.0).data()); //weight of ones + twodimcache[it->first].first.clear(); + twodimcache[it->first].second.clear(); + } + } + std::cout << "." << std::endl; +} +void HistPlotter::FlushToDisk() { + /*! \fn void FlushToDisk() + \brief Function that can be used at any point to exit smoothly by saving all ROOT objects in memory + to the output file before closing it. Obeys the binding of histograms to separate folders, if so specified. + \return No return -- void + */ + if(filetype==TMEMFILE && omfile) { + std::cout << "Not flushing a TMemfile .. exiting .." << std::endl; + delete omfile; + return; + } + if(ofile->IsZombie() || !ofile) { + std::cerr << "Output file is zombie, finishing up without writing to disk!" << std::endl; + return; + } + FillN_All_Histograms(); + for(auto it=oMap.begin(); it!=oMap.end(); it++ ) { + //omap maps: name(first) to object address(second). + // foldersForObjects maps: object address(first) to foldername(second) + auto result = foldersForObjects.find(it->second); //returns pair if found + if(result!=foldersForObjects.end()) { //we try to create folder if needed and cd to it + ofile->mkdir(result->second.c_str(),"",kTRUE); // args: name, title, returnExistingDirectory + ofile->cd(result->second.c_str()); + } else { + ofile->cd(); //toplevel for all default histograms. Default setting + } + it->second->Write(); + } + + //Create a directory for all cuts, and save all cuts in them + ofile->mkdir("gCUTS","",kTRUE); + ofile->cd("gCUTS"); + for(auto it=cutsMap.begin(); it!=cutsMap.end(); it++) { + (static_cast(it->second))->SetName(it->first.c_str()); + it->second->Write(); + } + ofile->Close(); + std::cout << "Wrote " << oMap.size() << " histograms to TFile " << std::string(ofile->GetName()) << std::endl; +} + +void HistPlotter::FillGraph(const std::string& name, float valuex, float valuey, float errx, float erry) { + /*! \fn void FillGraph() + \brief + - Creates a TGraphError in memory with name 'name' if it doesn't exist, and fills it with valuex, valuey + - Writes present state to disk and fails with return value -1 if the name clashes with another object that's not of type TGraph* + + \param name name of the TGraph + \param valuex The xvalue + \param valuey The yvalue + \param errx The x error + \param erry The y error + \return No return void + */ + auto result = oMap.find(name); + if(result==oMap.end()) { + TGraphErrors *tempG = new TGraphErrors(); + tempG->SetName(name.c_str()); + oMap.insert(std::make_pair(name,static_cast(tempG))); + } + if(!oMap.at(name)->InheritsFrom("TGraphErrors")) { + std::cerr << "Object " << name << " refers to something other than a TGraph*, not filling it hence!" << std::endl; + std::cerr << "Abort.." << std::endl; + FlushToDisk(); + exit(-1); + } + // static_cast(oMap.at(name))->AddPointError(valuex,valuey,errx,erry); +} + +void HistPlotter::Fill1D(const std::string& name, int nbinsx, float xlow, float xhigh, float value) { + /*! \fn void Fill1D() + \brief + - Creates a TH1F in memory with name 'name' if it doesn't exist, and fills it with valuex, valuey + - Writes present state to disk and fails with return value -1 if the name clashes with another object that's not of type TH1* + + \param name name of the TH1F histogram + \param nbinsx Number of bins in the histogram + \param xlow Lower limit on x-axis + \param xhigh Upper limit on x-axis + \param value The bin corresponding to value in (nbinsx, xlow, xhigh) is incremented by 1 + \return No return void + */ + auto result = oMap.find(name); //result is an iterator + if(result==oMap.end()) { + TH1F* temp1D = new TH1F(name.c_str(), name.c_str(), nbinsx, xlow, xhigh); + oMap.insert(std::make_pair(name,static_cast(temp1D))); + onedimcache.insert(std::make_pair(name, std::vector())); + onedimcache[name].reserve(16384); + } else if(foldersForObjects.find(oMap.at(name))!=foldersForObjects.end()) { //shouldn't have a folder associated with it + std::cerr << "Object " << name << " already registered at " << foldersForObjects[oMap[name]] << ", choose a different name for the histogram to be stored in toplevel .." << std::endl; + } + + //Check if the string 'name' maps to a 1D hist. If there's any other object by this name raise issue + if(!oMap.at(name)->InheritsFrom("TH1F")) { + std::cerr << "Object " << name << " refers to something other than a TH1*, not filling it hence!" << std::endl; + std::cerr << "Abort.." << std::endl; + FlushToDisk(); + exit(-1); + } + onedimcache[name].emplace_back(value); + //static_cast(oMap.at(name))->Fill(value); +} + +void HistPlotter::Fill1D(const std::string& name, int nbinsx, float xlow, float xhigh, float value, const std::string& foldername) { + /*! \fn void Fill1D() + \brief + - Creates a TH1F in memory with name 'name' if it doesn't exist, and fills it with valuex, valuey + - Writes present state to disk and fails with return value -1 if the name clashes with another object that's not of type TH1* + - Remembers the foldername this particular histogram maps to, if provided. If not, defaults to toplevel. + + \param name name of the TH1F histogram + \param nbinsx Number of bins in the histogram + \param xlow Lower limit on x-axis + \param xhigh Upper limit on x-axis + \param value The bin corresponding to value in (nbinsx, xlow, xhigh) is incremented by 1 + \param foldername Name of the folder to put this histogram into. Defaults to toplevel if left empty + \return No return -- void + */ + + auto result = oMap.find(name); //result is an iterator + if(result==oMap.end()) { + TH1F* temp1D = new TH1F(name.c_str(), name.c_str(), nbinsx, xlow, xhigh); + oMap.insert(std::make_pair(name,static_cast(temp1D))); + onedimcache.insert(std::make_pair(name, std::vector())); + onedimcache[name].reserve(16384); + if(foldername!="") { + if(folderList.find(foldername)==folderList.end()) { + folderList.insert(foldername); + } + foldersForObjects.insert(std::make_pair(static_cast(temp1D),foldername)); + } + } else { + //object is present in map, but we enforce unique names + //it must already have a folder attached to it + if(foldersForObjects.find(oMap.at(name))==foldersForObjects.end()) { + std::cerr << "Object " << name << " already registered at toplevel, choose a different name for the histogram to be stored in " << foldername << " folder .." << std::endl; + } else if(foldersForObjects[oMap[name]]!=foldername) { + std::cerr << "Object " << name << " already registered at " << foldersForObjects[oMap[name]] << ", choose a different name for the histogram to be stored in " << foldername << " folder .." << std::endl; + } + } + //Check if the string 'name' maps to a 1D hist. If there's any other object by this name raise issue + if(!oMap.at(name)->InheritsFrom("TH1F")) { + std::cerr << "Object " << name << " refers to something other than a TH1*, not filling it hence!" << std::endl; + std::cerr << "Abort.." << std::endl; + FlushToDisk(); + exit(-1); + } + onedimcache[name].emplace_back(value); + //static_cast(oMap.at(name))->Fill(value); +} + +void HistPlotter::Fill2D(const std::string& name, int nbinsx, float xlow, float xhigh, int nbinsy, float ylow, float yhigh, float valuex, float valuey) { + /*! \fn void Fill2D() + \brief + - Creates a TH2F in memory with name 'name' if it doesn't exist, and fills it with valuex, valuey + - Writes present state to disk and fails with return value -1 if the name clashes with another object that's not of type TH2* + \param name name of the TH1F histogram + \param nbinsx Number of xbins in the histogram + \param xlow Lower limit on x-axis + \param xhigh Upper limit on x-axis + \param nbinsy Number of ybins in the histogram + \param ylow Lower limit on y-axis + \param yhigh Upper limit on y-axis + \param valuex + \param valuey The bin corresponding to (valuex, valuey) in (nbinsx, xlow, xhigh, ybinsx, ylow, yhigh) is incremented by 1 + \return No return -- void + */ + + auto result = oMap.find(name); //result is an iterator + if(result==oMap.end()) { + TH2F* temp2D = new TH2F(name.c_str(), name.c_str(), nbinsx, xlow, xhigh, nbinsy, ylow, yhigh); + oMap.insert(std::make_pair(name,static_cast(temp2D))); + twodimcache.insert(std::make_pair(name, std::make_pair(std::vector(),std::vector()))); + twodimcache[name].first.reserve(16384); + twodimcache[name].second.reserve(16384); + } else if(foldersForObjects.find(oMap.at(name))!=foldersForObjects.end()) { //shouldn't have a folder associated with it + std::cerr << "Object " << name << " already registered at " << foldersForObjects[oMap[name]] << ", choose a different name for the histogram to be stored in toplevel .." << std::endl; + } + + //Check if the string 'name' maps to a 1D hist. If there's any other object by this name raise issue + if(!oMap.at(name)->InheritsFrom("TH2F")) { + std::cerr << "Object " << name << " refers to something other than a TH2*, not filling it hence!" << std::endl; + std::cerr << "Abort.." << std::endl; + FlushToDisk(); + exit(-1); + } + twodimcache[name].first.emplace_back(valuex); + twodimcache[name].second.emplace_back(valuey); + //static_cast(oMap.at(name))->Fill(valuex,valuey); +} + +void HistPlotter::Fill2D(const std::string& name, int nbinsx, float xlow, float xhigh, int nbinsy, float ylow, float yhigh, float valuex, float valuey, const std::string& foldername) { + /*! \fn void Fill2D() + \brief + - Creates a TH2F in memory with name 'name' if it doesn't exist, and fills it with valuex, valuey + - Writes present state to disk and fails with return value -1 if the name clashes with another object that's not of type TH2* + - Remembers the foldername this particular histogram maps to, if provided. If not defaults to toplevel + + \param name name of the TH1F histogram + \param nbinsx Number of xbins in the histogram + \param xlow Lower limit on x-axis + \param xhigh Upper limit on x-axis + \param nbinsy Number of ybins in the histogram + \param ylow Lower limit on y-axis + \param yhigh Upper limit on y-axis + \param valuex + \param valuey The bin corresponding to (valuex, valuey) in (nbinsx, xlow, xhigh, ybinsx, ylow, yhigh) is incremented by 1 + \param foldername Name of the folder to put this histogram into. Defaults to toplevel if left empty + \return No return -- void + */ + + auto result = oMap.find(name); //result is an iterator + if(result==oMap.end()) { + TH2F* temp2D = new TH2F(name.c_str(), name.c_str(), nbinsx, xlow, xhigh, nbinsy, ylow, yhigh); + oMap.insert(std::make_pair(name,static_cast(temp2D))); + twodimcache.insert(std::make_pair(name, std::make_pair(std::vector(),std::vector()))); + twodimcache[name].first.reserve(16384); + twodimcache[name].second.reserve(16384); + if(foldername!="") { + if(folderList.find(foldername)==folderList.end()) { + folderList.insert(foldername); + } + foldersForObjects.insert(std::make_pair(static_cast(temp2D),foldername)); + } + } else { + //object is present in map, but we enforce unique names + //it must already have a folder attached to it + if(foldersForObjects.find(oMap.at(name))==foldersForObjects.end()) { + std::cerr << "Object " << name << " already registered at toplevel, choose a different name for the histogram to be stored in " << foldername << " folder .." << std::endl; + } else if(foldersForObjects[oMap.at(name)]!=foldername) { + std::cerr << "Object " << name << " already registered at " << foldersForObjects[oMap[name]] << ", choose a different name for the histogram to be stored in " << foldername << " folder .." << std::endl; + } + } + + //Check if the string 'name' maps to a 1D hist. If there's any other object by this name raise issue + if(!oMap.at(name)->InheritsFrom("TH2F")) { + std::cerr << "Object " << name << " refers to something other than a TH2*, not filling it hence!" << std::endl; + std::cerr << "Abort.." << std::endl; + FlushToDisk(); + exit(-1); + } + twodimcache[name].first.emplace_back(valuex); + twodimcache[name].second.emplace_back(valuey); + //static_cast(oMap.at(name))->Fill(valuex,valuey); +} + +void HistPlotter::ReadCuts(std::string filename) { + /*! \fn void ReadCuts() + \brief Reads a list of cuts from a file. The file must have the format below, two columns + - Column#1 - path to a file that contains a single TCutG object named "CUTG", the default name in ROOT. + - Column#2 - The identifier name you plan to use in the code, like 'protonbarrelpid' or something, that will be searched by FindCut() + \param filename name of the plainxtext file containing the cut file locations and identifiers + \return No return -- void + */ + + std::ifstream infile; + infile.open(filename); + std::string cutfilename, cutname; + for(std::string line; std::getline(infile, line); ) { + if(line.size()!=0 && line[0]=='#') + ; //don't do anything with '#' lines + else { + std::stringstream ss(line); + ss>>cutfilename>>cutname; + + TFile f(cutfilename.c_str()); + if(f.IsZombie()) { + std::cerr << "Cannot open cutfile " << cutfilename << " .. skipping.." << std::endl; + continue; + } + TCutG *cut = (TCutG*)(f.Get("CUTG")); + cutsMap.insert(std::make_pair(cutname,static_cast(cut))); + f.Close(); + } //else + }//for loop + infile.close(); +} + +void HistPlotter::PrintObjects() { + /* + void PrintObjects() + Prints the contents of the unordered_maps oMap and cutsMap to facilitate debugging + + */ + std::cout << "Type | Name " << std::endl; + std::cout << "---- | --------------------- " << std::endl; + for(auto it=oMap.begin(); it!=oMap.end(); it++ ) { + std::cout << it->second->ClassName() << " | "<< it->first << std::endl; + } + for(auto it=cutsMap.begin(); it!=cutsMap.end(); it++ ) { + std::cout << it->second->ClassName() << " | "<< it->first << std::endl; + } + std::cout << "---- | --------------------- " << std::endl; +} + +#endif diff --git a/Armory/Armory/Isotope.h b/Armory/Armory/Isotope.h new file mode 100644 index 0000000..d44cdc9 --- /dev/null +++ b/Armory/Armory/Isotope.h @@ -0,0 +1,522 @@ +/*********************************************************************** + * + * This is Isotope.h, To extract the isotope mass from massXX.txt + * + *------------------------------------------------------- + * created by Ryan (Tsz Leung) Tang, Nov-18, 2018 + * email: goluckyryan@gmail.com + * ********************************************************************/ + + +#ifndef ISOTOPE_H +#define ISOTOPE_H + +#include +#include +#include +#include +#include +#include +#include "constant.h" // amu +#include //atoi +#include +using namespace std; + +string massData="mass20.txt"; + +// about the mass**.txt +// Mass Excess = (ATOMIC MASS - A)*amu | e.g. n : (1.088664.91585E-6-1)*amu +// mass excess uncertaintly +// BEA = (Z*M(1H) + N*M(1n) - Me(A,Z))/A , Me is the mass with electrons +// BEA = (Z*mp + N*mn - M(A,Z))/A , M is the mass without electrons + +class Isotope { +public: + int A, Z; + double Mass, MassError, BEA; + string Name, Symbol; + string dataSource; + + Isotope(){ dataSource = massData; }; + Isotope(int a, int z){ dataSource = massData; SetIso(a,z); }; + Isotope(string name){ dataSource = massData; SetIsoByName(name); }; + + void SetIso(int a, int z); + void SetIsoByName(string name); + + double CalSp(int Np, int Nn); // this for the Np-proton, Nn-neutron removal + double CalSp2(int a, int z); // this is for (a,z) nucleus removal + + double CalBeta(double T){ + // double Etot = Mass + T; + double gamma = 1 + T/Mass; + double beta = sqrt(1 - 1 / gamma / gamma ) ; + return beta; + } + + void Print(); + void ListShell(); + +private: + void FindMassByAZ(int a, int z); // give mass, massError, BEA, Name, Symbol; + void FindMassByName(string name); // give Z, mass, massError, BEA; + + int TwoJ(int nShell); + string Orbital(int nShell); + int magic(int i){ + switch (i){ + case 0: return 2; break; + case 1: return 8; break; + case 2: return 20; break; + case 3: return 28; break; + case 4: return 40; break; + case 5: return 50; break; + case 6: return 82; break; + case 7: return 128; break; + } + return 0; + } + + int magicShellID(int i){ + switch (i){ + case 0: return 0; break; + case 1: return 2; break; + case 2: return 5; break; + case 3: return 6; break; + case 4: return 9; break; + case 5: return 10; break; + case 6: return 15; break; + case 7: return 21; break; + } + return 0; + } + + int fileStartLine; + int fileEndLine; + int lineMass050_099; + int lineMass100_149; + int lineMass150_199; + int lineMass200; + + + void setFileLines(){ + fileStartLine = 37; + fileEndLine = 3594; + + lineMass050_099 = 466; + lineMass100_149 = 1160; + lineMass150_199 = 1994; + lineMass200 = 2774; + } + + char * heliosPath; + bool isFindOnce; + + +}; + +inline void Isotope::SetIso(int a, int z){ + this->A = a; + this->Z = z; + FindMassByAZ(a,z); +} + +inline void Isotope::SetIsoByName(string name){ + FindMassByName(name); +} + +inline void Isotope::FindMassByAZ(int A, int Z){ + string line; + int lineNum=0; + int list_A, list_Z; + + ifstream myfile; + int flag=0; + + setFileLines(); + + int numLineStart = fileStartLine; + int numLineEnd = fileEndLine; + + if ( A >= 50 && A < 100) numLineStart = lineMass050_099; + if ( A >=100 && A < 150) numLineStart = lineMass100_149; + if ( A >=150 && A < 200) numLineStart = lineMass150_199; + if ( A >=200 ) numLineStart = lineMass200; + + myfile.open(dataSource.c_str()); + + if (myfile.is_open()) { + while (/*! myfile.eof() &&*/ flag == 0 && lineNum = numLineStart ){ + list_Z = atoi((line.substr(10,5)).c_str()); + list_A = atoi((line.substr(15,5)).c_str()); + + if ( A == list_A && Z == list_Z) { + this->BEA = atof((line.substr(54,11)).c_str()); + this->Mass = list_Z*mp + (list_A-list_Z)*mn - this->BEA/1000*list_A; + this->MassError = atof((line.substr(65,7)).c_str()); + string str = line.substr(20,2); + str.erase(remove(str.begin(), str.end(), ' '), str.end()); + this->Symbol = str; + + ostringstream ss; + ss << A << this->Symbol; + this->Name = ss.str(); + flag = 1; + }else if ( list_A > A) { + this->BEA = -404; + this->Mass = -404; + this->MassError = -404; + this->Symbol = "non"; + this->Name = "non"; + break; + } + + } + } + + if( this->Name == "1H" ) this->Name = "p"; + if( this->Name == "2H" ) this->Name = "d"; + if( this->Name == "3H" ) this->Name = "t"; + if( this->Name == "4He" ) this->Name = "a"; + + myfile.close(); + }else { + printf("Unable to open %s\n", dataSource.c_str()); + } +} + +inline void Isotope::FindMassByName(string name){ + + // done seperate the Mass number and the name + if( name == "n" ) { + this->Name = "1n"; + this->BEA = 0; + this->Mass = mn; + this->MassError = 0; + this->Name = "n"; + this->A = 1; + this->Z = 0; + return; + } + if( name == "p" ) name = "1H"; + if( name == "d" ) name = "2H"; + if( name == "t" ) name = "3H"; + if( name == "a" ) name = "4He"; + + string temp = name; + int lastDigit = 0; + + for(int i=0; temp[i]; i++){ + if(temp[i] == '0') lastDigit = i; + if(temp[i] == '1') lastDigit = i; + if(temp[i] == '2') lastDigit = i; + if(temp[i] == '3') lastDigit = i; + if(temp[i] == '4') lastDigit = i; + if(temp[i] == '5') lastDigit = i; + if(temp[i] == '6') lastDigit = i; + if(temp[i] == '7') lastDigit = i; + if(temp[i] == '8') lastDigit = i; + if(temp[i] == '9') lastDigit = i; + } + + this->Symbol = temp.erase(0, lastDigit +1); + //check is Symbol is 2 charaters, if not, add " " at the end + if( this->Symbol.length() == 1 ){ + this->Symbol = this->Symbol + " "; + } + + + temp = name; + int len = temp.length(); + temp = temp.erase(lastDigit+1, len); + + this->A = atoi(temp.c_str()); + //printf(" Symbol = |%s| , Mass = %d\n", this->Symbol.c_str(), this->A); + + // find the nucleus in the data + string line; + int lineNum=0; + int list_A; + string list_symbol; + + ifstream myfile; + int flag=0; + + setFileLines(); + + int numLineStart = fileStartLine; + int numLineEnd = fileEndLine; + + if ( A >= 50 && A < 100) numLineStart = lineMass050_099; + if ( A >=100 && A < 150) numLineStart = lineMass100_149; + if ( A >=150 && A < 200) numLineStart = lineMass150_199; + if ( A >=200 ) numLineStart = lineMass200; + + myfile.open(dataSource.c_str()); + + if (myfile.is_open()) { + while (/*! myfile.eof() &&*/ flag == 0 && lineNum = numLineStart ){ + list_symbol = line.substr(20,2); + list_A = atoi((line.substr(15,5)).c_str()); + + //printf(" A = %d, Sym = |%s| \n", list_A, list_symbol.c_str()); + + if ( this->A == list_A && this->Symbol == list_symbol) { + this->Z = atoi((line.substr(10,5)).c_str()); + this->BEA = atof((line.substr(54,11)).c_str()); + this->Mass = this->Z*mp + (list_A-this->Z)*mn - this->BEA/1000*list_A; + this->MassError = atof((line.substr(65,7)).c_str()); + + string str = line.substr(20,2); + str.erase(remove(str.begin(), str.end(), ' '), str.end()); + this->Symbol = str; + + ostringstream ss; + ss << this->A << this->Symbol; + this->Name = ss.str(); + flag = 1; + }else if ( list_A > this->A) { + this->BEA = -404; + this->Mass = -404; + this->MassError = -404; + this->Symbol = "non"; + this->Name = "non"; + break; + } + + } + } + myfile.close(); + }else { + printf("Unable to open %s\n", dataSource.c_str()); + } +} + +inline double Isotope::CalSp(int Np, int Nn){ + Isotope nucleusD(A - Np - Nn, Z - Np); + + if( nucleusD.Mass != -404){ + return nucleusD.Mass + Nn*mn + Np*mp - this->Mass; + }else{ + return -404; + } +} + +inline double Isotope::CalSp2(int a, int z){ + Isotope nucleusD(A - a , Z - z); + Isotope nucleusS(a,z); + + if( nucleusD.Mass != -404 && nucleusS.Mass != -404){ + return nucleusD.Mass + nucleusS.Mass - this->Mass; + }else{ + return -404; + } +} + +inline int Isotope::TwoJ(int nShell){ + + switch(nShell){ + case 0: return 1; break; // 0s1/2 + case 1: return 3; break; // 0p3/2 + case 2: return 1; break; // 0p1/2 -- 8 + case 3: return 5; break; // 0d5/2 + case 4: return 1; break; // 1s1/2 + case 5: return 3; break; // 0d3/2 -- 20 + case 6: return 7; break; // 0f7/2 -- 28 + case 7: return 3; break; // 1p3/2 + case 8: return 1; break; // 1p1/2 + case 9: return 5; break; // 0f5/2 -- 40 + case 10: return 9; break; // 0g9/2 -- 50 + case 11: return 7; break; // 0g7/2 + case 12: return 5; break; // 1d5/2 + case 13: return 11; break; // 0h11/2 + case 14: return 3; break; // 1d3/2 + case 15: return 1; break; // 2s1/2 -- 82 + case 16: return 9; break; // 0h9/2 + case 17: return 7; break; // 1f7/2 + case 18: return 13; break; // 0i13/2 + case 19: return 3; break; // 2p3/2 + case 20: return 5; break; // 1f5/2 + case 21: return 1; break; // 1p1/2 -- 126 + case 22: return 9; break; // 1g9/2 + case 23: return 11; break; // 0i11/2 + case 24: return 15; break; // 0j15/2 + case 25: return 5; break; // 2d5/2 + case 26: return 1; break; // 3s1/2 + case 27: return 3; break; // 2d3/2 + case 28: return 7; break; // 1g7/2 + } + + return 0; +} + +inline string Isotope::Orbital(int nShell){ + + switch(nShell){ + case 0: return "0s1 "; break; // + case 1: return "0p3 "; break; // + case 2: return "0p1 "; break; //-- 8 + case 3: return "0d5 "; break; // + case 4: return "1s1 "; break; // + case 5: return "0d3 "; break; //-- 20 + case 6: return "0f7 "; break; //-- 28 + case 7: return "1p3 "; break; // + case 8: return "1p1 "; break; // + case 9: return "0f5 "; break; //-- 40 + case 10: return "0g9 "; break; //-- 50 + case 11: return "0g7 "; break; // + case 12: return "1d5 "; break; // + case 13: return "0h11"; break; // + case 14: return "1d3 "; break; // + case 15: return "2s1 "; break; //-- 82 + case 16: return "0h9 "; break; // + case 17: return "1f7 "; break; // + case 18: return "0i13"; break; // + case 19: return "2p3 "; break; // + case 20: return "1f5 "; break; // + case 21: return "1p1 "; break; //-- 126 + case 22: return "1g9 "; break; // + case 23: return "0i11"; break; // + case 24: return "0j15"; break; // + case 25: return "2d5 "; break; // + case 26: return "3s1 "; break; // + case 27: return "2d3 "; break; // + case 28: return "1g7 "; break; // + } + + return "nan"; +} + +inline void Isotope::ListShell(){ + + if( Mass < 0 ) return; + + int n = A-Z; + int p = Z; + + int k = std::min(n,p); + int nMagic = 0; + for( int i = 0; i < 7; i++){ + if( magic(i) < k && k <= magic(i+1) ){ + nMagic = i; + break; + } + } + + int coreShell = magicShellID(nMagic-1); + int coreZ1 = magic(nMagic-1); + int coreZ2 = magic(nMagic); + + Isotope core1( 2*coreZ1, coreZ1); + Isotope core2( 2*coreZ2, coreZ2); + + printf("------------------ Core:%3s, inner Core:%3s \n", (core2.Name).c_str(), (core1.Name).c_str()); + printf(" || "); + int t = std::max(n,p); + int nShell = 0; + do{ + int occ = TwoJ(nShell)+1; + if( nShell > coreShell) { + printf("%4s", Orbital(nShell).c_str()); + if( nShell == 0 || nShell == 2 || nShell == 5 || nShell ==6 || nShell == 9 || nShell == 10 || nShell == 15 || nShell == 21){ + printf("|"); + }else{ + printf(","); + } + } + t = t - occ; + nShell++; + }while( t > 0 && nShell < 29); + for( int i = 1; i <= 6; i++){ + if (nShell < 28) { + printf("%4s,", Orbital(nShell).c_str()); + }else if( nShell == 28 ) { + printf("%4s", Orbital(nShell).c_str()); + } + nShell ++; + } + if (nShell < 29) printf("%4s", Orbital(nShell).c_str()); + printf("\n"); + + + printf(" Z = %3d || ", p); + nShell = 0; + do{ + int occ = TwoJ(nShell)+1; + if( nShell > coreShell ){ + if( p > occ ) { + printf("%-4d", occ); + if( nShell == 0 || nShell == 2 || nShell == 5 || nShell ==6 || nShell == 9 || nShell == 10 || nShell == 15 || nShell == 21){ + printf("|"); + }else{ + printf(","); + } + }else{ + printf("%-4d", p); + } + } + p = p - occ; + nShell++; + }while( p > 0 && nShell < 29); + printf("\n"); + + printf(" N = %3d || ", n); + nShell = 0; + do{ + int occ = TwoJ(nShell)+1; + if ( nShell > coreShell ){ + if( n > occ ) { + printf("%-4d", occ); + if( nShell == 0 || nShell == 2 || nShell == 5 || nShell ==6 || nShell == 9 || nShell == 10 || nShell == 15 || nShell == 21){ + printf("|"); + }else{ + printf(","); + } + }else{ + printf("%-4d", n); + } + } + n = n - occ; + nShell++; + }while( n > 0 && nShell < 29); + printf("\n"); + + printf("------------------ \n"); +} + + +inline void Isotope::Print(){ + + if (Mass > 0){ + + dataSource = massData; + + printf(" using mass data : %s \n", dataSource.c_str()); + printf(" mass of \e[47m\e[31m%s\e[m nucleus (Z,A)=(%3d,%3d) is \e[47m\e[31m%12.5f\e[m MeV, BE/A=%7.5f MeV\n", Name.c_str(), Z, A, Mass, BEA/1000.); + printf(" total BE : %12.5f MeV\n",BEA*A/1000.); + printf(" mass in amu : %12.5f u\n",Mass/amu); + printf(" mass excess : %12.5f MeV\n", Mass + Z*0.510998950 - A*amu); + printf("-------------- Seperation energy \n"); + printf(" S1p: %8.4f| S1n: %8.4f| S(2H ): %8.4f| S1p1n : %8.4f\n", CalSp(1, 0), CalSp(0, 1), CalSp2(2, 1), CalSp(1, 1)); + printf(" S2p: %8.4f| S2n: %8.4f| S(3He): %8.4f| S(3H) : %8.4f\n", CalSp(2, 0), CalSp(0, 2), CalSp2(3, 2), CalSp2(3, 1)); + printf(" S3p: %8.4f| S3n: %8.4f| S(4He): %8.4f|\n", CalSp(3, 0), CalSp(0, 3), CalSp2(4, 2)); + printf(" S4p: %8.4f| S4n: %8.4f| \n", CalSp(4, 0), CalSp(0, 4)); + + }else{ + printf("Error %6.0f, no nucleus with (Z,A) = (%3d,%3d). \n", Mass, Z, A); + } + + +} + +#endif diff --git a/Armory/Armory/LICENSE b/Armory/Armory/LICENSE new file mode 100644 index 0000000..f288702 --- /dev/null +++ b/Armory/Armory/LICENSE @@ -0,0 +1,674 @@ + GNU GENERAL PUBLIC LICENSE + Version 3, 29 June 2007 + + Copyright (C) 2007 Free Software Foundation, Inc. + Everyone is permitted to copy and distribute verbatim copies + of this license document, but changing it is not allowed. + + Preamble + + The GNU General Public License is a free, copyleft license for +software and other kinds of works. + + The licenses for most software and other practical works are designed +to take away your freedom to share and change the works. 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If your program is a subroutine library, you +may consider it more useful to permit linking proprietary applications with +the library. If this is what you want to do, use the GNU Lesser General +Public License instead of this License. But first, please read +. diff --git a/Armory/Armory/Makefile b/Armory/Armory/Makefile new file mode 100644 index 0000000..9cc4957 --- /dev/null +++ b/Armory/Armory/Makefile @@ -0,0 +1,32 @@ +######################################################################## +# +# +######################################################################### + +CC = g++ + +#COPTS = -fPIC -DLINUX -O2 -std=c++17 -lpthread +COPTS = -fPIC -DLINUX -g -O0 -Wall -std=c++17 -lpthread + +ROOTLIBS = `root-config --cflags --glibs` + +ALL = Mapper EventBuilder#AnasenMS + +######################################################################### + +all : $(ALL) + +clean : + /bin/rm -f $(OBJS) $(ALL) + +Mapper : Mapper.cpp ../mapping.h ClassDet.h + @echo "--------- making Mapper" + $(CC) $(COPTS) -o Mapper Mapper.cpp $(ROOTLIBS) + +# AnasenMS : constant.h Isotope.h ClassTransfer.h ClassSX3.h ClassPW.h ClassAnasen.h anasenMS.cpp +# @echo "--------- making ANASEN Monte Carlo" +# $(CC) $(COPTS) -o AnasenMS anasenMS.cpp $(ROOTLIBS) + +EventBuilder : EventBuilder.cpp ../ClassData.h fsuReader.h ../Hit.h + @echo "--------- making EventBuilder" + $(CC) $(COPTS) -o EventBuilder EventBuilder.cpp $(ROOTLIBS) diff --git a/Armory/Armory/Mapper.cpp b/Armory/Armory/Mapper.cpp new file mode 100644 index 0000000..8030de1 --- /dev/null +++ b/Armory/Armory/Mapper.cpp @@ -0,0 +1,182 @@ +#include +#include + +#include +#include +#include +#include +#include + +#include "../mapping.h" +#include "ClassDet.h" + +//=============================== +int main(int argc, char **argv){ + + printf("=========================================\n"); + printf("=== Mapper ===\n"); + printf("=========================================\n"); + if (argc != 2) { + printf("Incorrect number of arguments:\n"); + printf("%s [inFile]\n", argv[0]); + printf("\n\n"); + return 1; + } + + ///============= read input + std::string inFileName = argv[1]; + + PrintMapping(); + + TFile * inFile = new TFile(inFileName.c_str(), "READ"); + TTree * tree = (TTree*) inFile->Get("tree"); + unsigned long long totnumEntry = tree->GetEntries(); + + ULong64_t evID; + UInt_t multi; + UShort_t sn[MAXMULTI]; + UShort_t ch[MAXMULTI]; + UShort_t e[MAXMULTI]; + UShort_t e2[MAXMULTI]; + ULong64_t e_t[MAXMULTI]; + UShort_t e_f[MAXMULTI]; + + tree->SetBranchAddress("evID", &evID); + tree->SetBranchAddress("multi", &multi); + tree->SetBranchAddress("sn", sn); + tree->SetBranchAddress("ch", ch); + tree->SetBranchAddress("e", e); + tree->SetBranchAddress("e2", e2); + tree->SetBranchAddress("e_t", e_t); + tree->SetBranchAddress("e_f", e_f); + + ///================== new tree + TString outFileName = inFileName; + TString runStr = outFileName; + int pos = outFileName.Last('/'); + pos = outFileName.Index("_", pos+1); // find next "_" + runStr.Remove(0, pos+1); + runStr.Remove(3); + pos = outFileName.Index("_", pos+1); // find next "_" + outFileName.Remove(pos); // remove the rest + outFileName += "_mapped.root"; + + ULong_t eventID; + UInt_t run = runStr.Atoi(); + + Det sx3; + Det qqq; + Det pc ; + + printf(" Raw root file : %s\n", inFileName.c_str()); + printf(" Run : %03d\n", run); + printf(" total Entry : %lld \n", totnumEntry); + printf(" Out file name : %s \n", outFileName.Data()); + + TFile * saveFile = new TFile( outFileName,"RECREATE"); + TTree * newTree = new TTree("tree","tree"); + + + newTree->Branch("evID", &eventID,"eventID/l"); + newTree->Branch("run", &run,"run/i"); + + newTree->Branch("sx3Multi", &sx3.multi, "sx3Multi/s"); + newTree->Branch("sx3ID", &sx3.id, "sx3ID[sx3Multi]/s"); + newTree->Branch("sx3Ch", &sx3.ch, "sx3Ch[sx3Multi]/s"); + newTree->Branch("sx3E", &sx3.e, "sx3Energy[sx3Multi]/s"); + newTree->Branch("sx3T", &sx3.t, "sx3Time[sx3Multi]/l"); + + newTree->Branch("qqqMulti", &qqq.multi, "qqqMulti/s"); + newTree->Branch("qqqID", &qqq.id, "qqqID[qqqMulti]/s"); + newTree->Branch("qqqCh", &qqq.ch, "qqqCh[qqqMulti]/s"); + newTree->Branch("qqqE", &qqq.e, "qqqEnergy[qqqMulti]/s"); + newTree->Branch("qqqT", &qqq.t, "qqqTime[qqqMulti]/l"); + newTree->Branch("qqqSN", &qqq.sn, "qqqSN[qqqMulti]/s"); + + newTree->Branch("pcMulti", &pc.multi, "pcMulti/s"); + newTree->Branch("pcID", &pc.id, "pcID[pcMulti]/s"); + newTree->Branch("pcCh", &pc.ch, "pcCh[pcMulti]/s"); + newTree->Branch("pcE", &pc.e, "pcEnergy[pcMulti]/s"); + newTree->Branch("pcT", &pc.t, "pcTime[pcMulti]/l"); + + ///================== looping old tree and apply mapping + + //clock + // TBenchmark clock; + // Bool_t shown; + + for( unsigned long long ev = 0; ev < totnumEntry; ev++){ + tree->GetEntry(ev); + + eventID = evID; + sx3.multi = 0; + qqq.multi = 0; + pc.multi = 0; + + qqq.Clear(); + + for( unsigned int i = 0; i < multi; i++){ + + // printf("%10u/%10u| %5d, %2u, %6u, %14llu\n", i, multi, sn[i], ch[i], e[i], e_t[i] ); + + //globalCh = digi-ID * nCh(digi-iD) + ch + int globalCh = -1; + + for( int j = 0; j < nBd; j++){ + if( board.at(j) == sn[i]){ + globalCh = (sn[i] > 1000 ? j * 64 : 7*64 + (j-7) * 16) + ch[i]; //& = number V1740 + break; + } + } + + if( globalCh == -1) printf("ev %llu\n", ev); + + unsigned short ID = mapping[globalCh]; + + //=================================== sx3 + if( ID < 10000 ) { + sx3.id[sx3.multi] = ID / 100; + sx3.ch[sx3.multi] = ID % 100; + sx3.e[sx3.multi] = e[i]; + sx3.t[sx3.multi] = e_t[i]; + sx3.multi ++; + } + + //=================================== qqq + if( 10000 <= ID && ID < 20000 ) { + qqq.id[qqq.multi] = (ID - 10000) / 100; + qqq.ch[qqq.multi] = (ID - 10000) % 100; + qqq.e[qqq.multi] = e[i]; + qqq.t[qqq.multi] = e_t[i]; + qqq.sn[qqq.multi] = sn[i]; + qqq.multi ++; + } + + //=================================== pc + if( 20000 <= ID && ID < 30000 ) { + pc.id[pc.multi] = (ID - 20000) / 100; + pc.ch[pc.multi] = (ID - 20000) % 100; + pc.e[pc.multi] = e[i]; + pc.t[pc.multi] = e_t[i]; + pc.multi ++; + } + } + + saveFile->cd(); //set focus on this file + newTree->Fill(); + + if( eventID % 100 == 0 ) printf("%6lu/%6llu [%2d%%]\n\033[A\r", eventID, totnumEntry, TMath::Nint((eventID+1)*100./totnumEntry)); + + } + + inFile->Close(); + + saveFile->cd(); //set focus on this file + newTree->Write(); + UInt_t eventNumber = newTree->GetEntries(); + saveFile->Close(); + printf("-------------- done, %u\n", eventNumber); + + return 0; + +} \ No newline at end of file diff --git a/Armory/Armory/anasenMS.cpp b/Armory/Armory/anasenMS.cpp new file mode 100644 index 0000000..162e64f --- /dev/null +++ b/Armory/Armory/anasenMS.cpp @@ -0,0 +1,280 @@ +#include "TRandom.h" +#include "TFile.h" +#include "TTree.h" +#include "TH1.h" +#include "TH2.h" +#include "TStyle.h" +#include "TCanvas.h" +#include "TBenchmark.h" + +#include "ClassTransfer.h" +#include "ClassAnasen.h" + +//======== Gerneate light particle based on reaction +// find out the CalTrack and the real track +// find out the Q-value uncertaintly + +int main(int argc, char **argv){ + + printf("=========================================\n"); + printf("=== ANASEN Monte Carlo ===\n"); + printf("=========================================\n"); + + int numEvent = 1000000; + if( argc >= 2 ) numEvent = atoi(argv[1]); + + //Reaction + TransferReaction transfer; + + transfer.SetA(24,12, 0); + transfer.SetIncidentEnergyAngle(10, 0, 0); + transfer.Seta( 4, 2); + transfer.Setb( 1, 1); + + //TODO add alpha source + + std::vector ExAList = {0}; + std::vector ExList = {0, 1, 2}; + + double vertexXRange[2] = { -5, 5}; // mm + double vertexYRange[2] = { -5, 5}; + double vertexZRange[2] = { -100, 100}; + + double sigmaSX3_W = -1; // mm, < 0 use mid-point + double sigmaSX3_L = 3; // mm, < 0 use mid-point + double sigmaPW_A = 0; // from 0 to 1. + double sigmaPW_C = 0; // from 0 to 1. + + //################################################### + + printf("------------ Vertex :\n"); + printf("X : %7.2f - %7.2f mm\n", vertexXRange[0], vertexXRange[1]); + printf("Y : %7.2f - %7.2f mm\n", vertexYRange[0], vertexYRange[1]); + printf("Z : %7.2f - %7.2f mm\n", vertexZRange[0], vertexZRange[1]); + printf("------------ Uncertainty :\n"); + printf(" SX3 horizontal : %.1f\n", sigmaSX3_W); + printf(" SX3 vertical : %.1f\n", sigmaSX3_L); + printf(" Anode : %.1f mm\n", sigmaPW_A); + printf(" Cathode : %.1f mm\n", sigmaPW_C); + printf(" num_eve : %d \n",numEvent); + transfer.CalReactionConstant(); + + int nExA = ExAList.size(); + int nEx = ExList.size(); + + ANASEN * anasen = new ANASEN(); + SX3 * sx3 = anasen->GetSX3(); + PW * pw = anasen->GetPW(); + + TString saveFileName = "SimAnasen1.root"; + printf("\e[32m#################################### building Tree in %s\e[0m\n", saveFileName.Data()); + TFile * saveFile = new TFile(saveFileName, "recreate"); + TTree * tree = new TTree("tree", "tree"); + + double KEA; + tree->Branch("beamKEA", &KEA, "beamKEA/D"); + + double thetaCM, phiCM; + tree->Branch("thetaCM", &thetaCM, "thetaCM/D"); + tree->Branch("phiCM", &phiCM, "phiCM/D"); + + double thetab, phib, Tb; + double thetaB, phiB, TB; + tree->Branch("thetab", &thetab, "thetab/D"); + tree->Branch("phib", &phib, "phib/D"); + tree->Branch("Tb", &Tb, "Tb/D"); + tree->Branch("thetaB", &thetaB, "thetaB/D"); + tree->Branch("phiB", &phiB, "phiB/D"); + tree->Branch("TB", &TB, "TB/D"); + + int ExAID; + double ExA; + tree->Branch("ExAID", &ExAID, "ExAID/I"); + tree->Branch("ExA", &ExA, "ExA/D"); + + int ExID; + double Ex; + tree->Branch("ExID", &ExID, "ExID/I"); + tree->Branch("Ex", &Ex, "Ex/D"); + + double vertexX, vertexY, vertexZ; + tree->Branch("vX", &vertexX, "VertexX/D"); + tree->Branch("vY", &vertexY, "VertexY/D"); + tree->Branch("vZ", &vertexZ, "VertexZ/D"); + + double sx3X, sx3Y, sx3Z; + tree->Branch("sx3X", &sx3X, "sx3X/D"); + tree->Branch("sx3Y", &sx3Y, "sx3Y/D"); + tree->Branch("sx3Z", &sx3Z, "sx3Z/D"); + + int anodeID[2], cathodeID[2]; + tree->Branch("aID", anodeID, "anodeID/I"); + tree->Branch("cID", cathodeID, "cathodeID/I"); + + double anodeDist[2], cathodeDist[2]; + tree->Branch("aDist", anodeDist, "anodeDist/D"); + tree->Branch("cDist", cathodeDist, "cathodeDist/D"); + + int sx3ID, sx3Up, sx3Dn, sx3Bk; + double sx3ZFrac; + tree->Branch("sx3ID", &sx3ID, "sx3ID/I"); + tree->Branch("sx3Up", &sx3Up, "sx3Up/I"); + tree->Branch("sx3Dn", &sx3Dn, "sx3Dn/I"); + tree->Branch("sx3Bk", &sx3Bk, "sx3Bk/I"); + tree->Branch("sx3ZFrac", &sx3ZFrac, "sx3ZFrac/D"); + + double reTheta, rePhi; + tree->Branch("reTheta", &reTheta, "reconstucted_theta/D"); + tree->Branch("rePhi", &rePhi, "reconstucted_phi/D"); + + double reTheta1, rePhi1; + tree->Branch("reTheta1", &reTheta1, "reconstucted_theta1/D"); + tree->Branch("rePhi1", &rePhi1, "reconstucted_phi1/D"); + + double z0; + tree->Branch("z0", &z0, "reconstucted_Z/D"); + + + //========timer + TBenchmark clock; + bool shown ; + clock.Reset(); + clock.Start("timer"); + shown = false; + + //================================= Calculate event + for( int i = 0; i < numEvent ; i++){ + + ExAID = gRandom->Integer(nExA); + ExA = ExAList[ExAID]; + transfer.SetExA(ExA); + + ExID = gRandom->Integer(nEx); + Ex = ExList[ExID]; + transfer.SetExB(Ex); + + transfer.CalReactionConstant(); + + thetaCM = TMath::ACos(2 * gRandom->Rndm() - 1) ; + phiCM = (gRandom->Rndm() - 0.5) * TMath::TwoPi(); + + //==== Calculate reaction + TLorentzVector * output = transfer.Event(thetaCM, phiCM); + TLorentzVector Pb = output[2]; + TLorentzVector PB = output[3]; + + thetab = Pb.Theta() * TMath::RadToDeg(); + thetaB = PB.Theta() * TMath::RadToDeg(); + + Tb = Pb.E() - Pb.M(); + TB = PB.E() - PB.M(); + + phib = Pb.Phi() * TMath::RadToDeg(); + phiB = PB.Phi() * TMath::RadToDeg(); + + vertexX = (vertexXRange[1]- vertexXRange[0])*gRandom->Rndm() + vertexXRange[0]; + vertexY = (vertexYRange[1]- vertexYRange[0])*gRandom->Rndm() + vertexYRange[0]; + vertexZ = (vertexZRange[1]- vertexZRange[0])*gRandom->Rndm() + vertexZRange[0]; + + TVector3 vertex(vertexX, vertexY, vertexZ); + + TVector3 dir(1, 0, 0); + dir.SetTheta(thetab * TMath::DegToRad()); + dir.SetPhi(phib * TMath::DegToRad()); + + + pw->FindWireID(vertex, dir, false); + sx3->FindSX3Pos(vertex, dir, false); + + PWHitInfo hitInfo = pw->GetHitInfo(); + + anodeID[0] = hitInfo.nearestWire.first; + cathodeID[0] = hitInfo.nearestWire.second; + anodeID[1] = hitInfo.nextNearestWire.first; + cathodeID[1] = hitInfo.nextNearestWire.second; + + anodeDist[0] = hitInfo.nearestDist.first; + cathodeDist[0] = hitInfo.nearestDist.second; + anodeDist[1] = hitInfo.nextNearestDist.first; + cathodeDist[1] = hitInfo.nextNearestDist.second; + + sx3ID = sx3->GetID(); + if( sx3ID >= 0 ){ + sx3Up = sx3->GetChUp(); + sx3Dn = sx3->GetChDn(); + sx3Bk = sx3->GetChBk(); + sx3ZFrac = sx3->GetZFrac(); + + //Introduce uncertaity + // TVector3 hitPos = sx3->GetHitPos(); + TVector3 hitPos = sx3->GetHitPosWithSigma(sigmaSX3_W, sigmaSX3_L); + + sx3X = hitPos.X(); + sx3Y = hitPos.Y(); + sx3Z = hitPos.Z(); + + pw->CalTrack(hitPos, anodeID[0], cathodeID[0], false); + reTheta = pw->GetTrackTheta() * TMath::RadToDeg(); + rePhi = pw->GetTrackPhi() * TMath::RadToDeg(); + + pw->CalTrack2(hitPos, hitInfo, sigmaPW_A, sigmaPW_C, false); + reTheta1 = pw->GetTrackTheta() * TMath::RadToDeg(); + rePhi1 = pw->GetTrackPhi() * TMath::RadToDeg(); + + z0 = pw->GetZ0(); + + }else{ + sx3Up = -1; + sx3Dn = -1; + sx3Bk = -1; + sx3ZFrac = TMath::QuietNaN(); + + sx3X = TMath::QuietNaN(); + sx3Y = TMath::QuietNaN(); + sx3Z = TMath::QuietNaN(); + + // for( int i = 0; i < 12; i++){ + // sx3Index[i] = -1; + // } + + reTheta = TMath::QuietNaN(); + rePhi = TMath::QuietNaN(); + + reTheta1 = TMath::QuietNaN(); + rePhi1 = TMath::QuietNaN(); + + z0 = TMath::QuietNaN(); + + } + + tree->Fill(); + + //#################################################################### Timer + clock.Stop("timer"); + Double_t time = clock.GetRealTime("timer"); + clock.Start("timer"); + + if ( !shown ) { + if (fmod(time, 10) < 1 ){ + printf( "%10d[%2d%%]| %8.2f sec | expect: %5.1f min \n", i, TMath::Nint((i+1)*100./numEvent), time , numEvent*time/(i+1)/60); + shown = 1; + } + }else{ + if (fmod(time, 10) > 9 ){ + shown = 0; + } + } + + } + + tree->Write(); + int count = tree->GetEntries(); + saveFile->Close(); + + printf("=============== done. saved as %s. count(hit==1) : %d\n", saveFileName.Data(), count); + + delete anasen; + + return 0; + +} diff --git a/Armory/Armory/constant.h b/Armory/Armory/constant.h new file mode 100644 index 0000000..db83ec5 --- /dev/null +++ b/Armory/Armory/constant.h @@ -0,0 +1,105 @@ +/*********************************************************************** + * + * This is constant.h, to provide various physical constants. + * + *------------------------------------------------------- + * created by Ryan (Tsz Leung) Tang, Nov-18, 2018 + * email: goluckyryan@gmail.com + * ********************************************************************/ + +#ifndef constant +#define constant +#include + +const double pi = acos(-1.0); +const double E = 2.718281828459 ; +const double hbar_SI = 1.054571628e-34; //Js +const double kB = 1.3806504e-23; //JK^-1 +const double e = 1.602176487e-19; //C +const double c_SI = 299792458; //ms^-1 +const double me_SI = 9.10938215e-31 ; //kg +const double mp_SI = 1.672621637e-27 ; //kg +const double mn_SI = 1.67492729e-27 ; //kg +const double NA = 6.022141e+23 ; //mol^-1 + +const double deg2rad = pi/180 ; +const double rad2deg = 180/pi ; + +//====================================================================== +const double amu = 931.49432; // MeV/c^2 +const double hbarc = 197.326979; // MeV fm; +const double c = 299.792458; // mm/ns; +const double ee = 1.439964454; // MeV.fm + +//====================================================================== +double kg2MeV(double m){ + return m*c_SI*c_SI/e/1e6; +} + +double T2Brho(double mass, int Z, int A, double T){ + //mass in MeV + // Z in e + // T in MeV/A + double gamma = (T*A + mass)/mass; + double beta = sqrt(1-1/gamma/gamma); + return mass*beta*gamma/Z/c; +} + +double Brho2T(double mass, int Z, int A, double Brho){ + //mass in MeV + // Z in e + return (sqrt(pow(Brho*Z*c,2)+mass*mass)-mass)/A; +} + +double T2beta(double mass, int A, double T){ + double gamma = 1.0 + T*A/mass; + return sqrt(1-1/gamma/gamma); +} + +double ev2nm(double eV){ + // photon energy to nm + return hbarc/2/pi/eV; +} + +//====================================================================== +const double mp = kg2MeV(mp_SI); +const double mn = kg2MeV(mn_SI); +const double hbar = 197.326979; + + +//====================================================================== +inline std::vector SplitStr(std::string tempLine, std::string splitter, int shift = 0){ + + std::vector output; + + size_t pos; + do{ + pos = tempLine.find(splitter); /// fine splitter + if( pos == 0 ){ ///check if it is splitter again + tempLine = tempLine.substr(pos+1); + continue; + } + + std::string secStr; + if( pos == std::string::npos ){ + secStr = tempLine; + }else{ + secStr = tempLine.substr(0, pos+shift); + tempLine = tempLine.substr(pos+shift); + } + + ///check if secStr is begin with space + while( secStr.substr(0, 1) == " ") secStr = secStr.substr(1); + + ///check if secStr is end with space + while( secStr.back() == ' ') secStr = secStr.substr(0, secStr.size()-1); + + output.push_back(secStr); + ///printf(" |%s---\n", secStr.c_str()); + + }while(pos != std::string::npos ); + + return output; +} + +#endif diff --git a/Armory/Makefile b/Armory/Makefile index 2ff7b6f..9cc4957 100644 --- a/Armory/Makefile +++ b/Armory/Makefile @@ -27,6 +27,6 @@ Mapper : Mapper.cpp ../mapping.h ClassDet.h # @echo "--------- making ANASEN Monte Carlo" # $(CC) $(COPTS) -o AnasenMS anasenMS.cpp $(ROOTLIBS) -EventBuilder : EventBuilder.cpp ClassData.h fsuReader.h Hit.h +EventBuilder : EventBuilder.cpp ../ClassData.h fsuReader.h ../Hit.h @echo "--------- making EventBuilder" $(CC) $(COPTS) -o EventBuilder EventBuilder.cpp $(ROOTLIBS) diff --git a/MakeVertex.C b/MakeVertex.C index 805552d..7e9e615 100755 --- a/MakeVertex.C +++ b/MakeVertex.C @@ -39,6 +39,7 @@ bool realtime = true; const double source_vertex = 53; //53 const double qqq_z = 100.0; const double anode_gain = 1.5146e-5; //channels --> MeV +std::string dataset = "26Al"; //"17F" TApplication *app=NULL; TH1F *hha=NULL,*hhc=NULL; @@ -124,7 +125,7 @@ void MakeVertex::Begin(TTree * /*tree*/) } // Load PC Calibrations - std::ifstream inputFile("slope_intercept_results.txt"); + std::ifstream inputFile("slope_intercept_results_"+dataset+".txt"); if (inputFile.is_open()) { std::string line; @@ -183,7 +184,7 @@ void MakeVertex::Begin(TTree * /*tree*/) } { - std::ifstream infile("sx3cal/17F/backgains.dat"); + std::ifstream infile("sx3cal/"+dataset+"/backgains.dat"); std::string temp; int backpos, frontpos, clkpos; if (infile.is_open()) @@ -191,13 +192,13 @@ void MakeVertex::Begin(TTree * /*tree*/) ;//std::cout << sx3BackGain[clkpos][frontpos][backpos] << std::endl; infile.close(); - infile.open("sx3cal/17F/frontgains.dat"); + infile.open("sx3cal/"+dataset+"/frontgains.dat"); if (infile.is_open()) while(infile>>clkpos>>temp>>temp>>frontpos>>sx3FrontOffset[clkpos][frontpos]>>sx3FrontGain[clkpos][frontpos]) ;//std::cout << sx3FrontOffset[clkpos][frontpos] << " " << sx3FrontGain[clkpos][frontpos] << std::endl; infile.close(); - infile.open("sx3cal/17F/rightgains.dat"); + infile.open("sx3cal/"+dataset+"/rightgains.dat"); if (infile.is_open()) while(infile>>clkpos>>frontpos>>temp>>sx3RightGain[clkpos][frontpos]) { sx3RightGain[clkpos][frontpos]=TMath::Abs(sx3RightGain[clkpos][frontpos]); @@ -221,7 +222,6 @@ void MakeVertex::Begin(TTree * /*tree*/) can1->Modified(); can1->Update(); can1->BuildLegend(); - can2->cd(); frame->Draw(); for(int i=0; i<24; i++) { @@ -291,11 +291,7 @@ Bool_t MakeVertex::Process(Long64_t entry) qqq.CalIndex(); pc.CalIndex(); -/* for (int i = 0; i < pc.multi; i++) - { - std::cout << pc.index[i] << " " << pc.e[i] << " " << std::endl; - } -*/ std::vector sx3Events; + std::vector sx3Events; if(sx3.multi>1) { std::array Fsx3; //std::cout << "-----" << std::endl; @@ -364,21 +360,6 @@ Bool_t MakeVertex::Process(Long64_t entry) int qqqCount = 0; int qqqAdjCh = 0; // REMOVE WHEN RERUNNING USING THE NEW CALIBRATION FILE - for (int i = 0; i < qqq.multi; i++) - { - //if ((qqq.id[i] == 3 || qqq.id[i] == 1) && qqq.ch[i] < 16) - if (qqq.id[i] == 1 && qqq.ch[i] < 16) //for run 12, 26Al - { - qqq.ch[i] = 16 - qqq.ch[i]; - } - } - for (int i = 0; i < qqq.multi; i++) - { - if (qqq.id[i] == 0 && qqq.ch[i] >= 16) - { - } - } - std::vector QQQ_Events, PC_Events; std::vector QQQ_Events_Raw, PC_Events_Raw; std::vector QQQ_Events2; //clustering done @@ -519,7 +500,8 @@ Bool_t MakeVertex::Process(Long64_t entry) double x = rho * TMath::Cos(theta); double y = rho * TMath::Sin(theta); hitPos.SetXYZ(x, y, qqq_z); - if(realtime) qqqg->SetPoint(0,hitPos.X(),hitPos.Y(),hitPos.Z()); + //if(realtime) qqqg->SetPoint(0,hitPos.X(),hitPos.Y(),hitPos.Z()); + if(realtime) qqqg->AddPoint(hitPos.X(),hitPos.Y(),hitPos.Z()); qqqenergy = eRingMeV; qqqtimestamp = tRing; HitNonZero = true; @@ -572,6 +554,10 @@ Bool_t MakeVertex::Process(Long64_t entry) { cathodeT = static_cast(pc.t[i]); cathodeIndex = pc.index[i] - 24; + + //int flipped_index = 23-cathodeIndex; + //cWireEvents[flipped_index] = std::tuple(flipped_index,pc.e[i],static_cast(pc.t[i])); + cWireEvents[pc.index[i]-24] = std::tuple(pc.index[i]-24,pc.e[i],static_cast(pc.t[i])); if(realtime) hhc->SetBinContent(hhc->FindFixBin(cathodeIndex),pc.e[i]); } @@ -702,6 +688,7 @@ Bool_t MakeVertex::Process(Long64_t entry) if(PCSX3TimeCut) { plotter->Fill2D("xyplot_sx3"+std::to_string(sx3event.ch2/4),100,-100,100,100,-100,100,sx3event.pos.X(),sx3event.pos.Y()); plotter->Fill2D("xyplot_sx3"+std::to_string(sx3event.ch2/4),100,-100,100,100,-100,100,pcevent.pos.X(),pcevent.pos.Y()); + plotter->Fill2D("pcz_vs_pcphi_TimeCut",600,-200,200,120,-360,360,pcevent.pos.Z(),pcevent.pos.Phi()*180/M_PI); //x-axis is all Si det, y-axis is PC anode+cathode only } double sx3rho = 88.0;//approximate barrel radius double sx3z = sx3event.pos.Z()+(75.0/2.0)-3.0; //w.r.t target origin at 90 for run12 @@ -898,7 +885,8 @@ Bool_t MakeVertex::Process(Long64_t entry) else { anodeIntersection = TVector3(x, y, z); if(realtime) { - crossoverg->SetPoint(0,x,y,z); + //crossoverg->SetPoint(0,x,y,z); + crossoverg->AddPoint(x,y,z); } //std::cout << "Anode Intersection: " << anodeIntersection.X() << ", " << anodeIntersection.Y() << ", " << anodeIntersection.Z() << " " << aIDMax << std::endl; } @@ -910,8 +898,8 @@ Bool_t MakeVertex::Process(Long64_t entry) } if(anodeIndex!=-1 && cathodeIndex !=-1 && hitPos.Perp()!=0 && anodeIntersection.Perp()!=0 && realtime && PCQQQPhiCut && PCQQQTimeCut) { - can1->Modified(); - can1->Update(); + //can1->Modified(); + //can1->Update(); TVector3 x2(anodeIntersection); TVector3 x1(hitPos); TVector3 v = x2-x1; @@ -930,8 +918,9 @@ Bool_t MakeVertex::Process(Long64_t entry) //pla[anodeW.first]->SetLineStyle(kLine); } //can2->Modified(); - can2->Update(); - while(can1->WaitPrimitive()); + //can2->Update(); + //while(can1->WaitPrimitive()); + //pla[anodeIndex]->SetLineWidth(1); //pla[anodeIndex]->SetLineStyle(kDotted); for(auto anodeW: anodeHits) { @@ -942,7 +931,6 @@ Bool_t MakeVertex::Process(Long64_t entry) plc[cathodeIndex]->SetLineStyle(kDotted); plc[cath.first]->SetLineWidth(1); } - } //for (double Tz = 60; Tz <= 100; Tz += 1.0) @@ -1226,4 +1214,10 @@ Bool_t MakeVertex::Process(Long64_t entry) void MakeVertex::Terminate() { plotter->FlushToDisk(); + can1->Modified(); + can1->Update(); + can2->Modified(); + can2->Update(); + while(can1->WaitPrimitive()); + while(can2->WaitPrimitive()); } diff --git a/elog/elogd.cfg b/elog/elogd.cfg new file mode 100644 index 0000000..a0fc656 --- /dev/null +++ b/elog/elogd.cfg @@ -0,0 +1,1109 @@ +[global] +port = 8080 +URL = https://fsunuc.physics.fsu.edu/elog/ +#URL = https://elog.physics.fsu.edu/ +SSL = 0 +Protect Selection page = 0 +Password file = /data0/elog/password.xml +Self register = 3 +logfile = /data0/elog/log.txt +SMTP host = mailrelay.fsu.edu +#Restrict edit time = 168 +#origin:/usr/local/elog/logbooks +logbook dir = /data0/elog/logbooks +Max content length = 204857600 + +Welcome Title =

Welcome to FSU Fox's Lab Elog + +Login expiration = 24 +Admin user = rtang, alconley, mspieker, Sudarsan + +Group FSU Experiments = ANASEN, CATRiNA, Clarion2, ENCORE, Gamma-Spectroscopy, Kemper, Laser-Spectroscopy, RESOLUT, RESONEUT, Split-Pole, CeBrA +Group FRIB Experiments = e21062_analysis, 2022_05_e21062_FRIB +Group Beams production = Maintenance, Beams production +Group Lab Maintenance = fsunuc, Pixie_NSCLDAQ, LabMaintenance, dataServer, SOLARIS-DAQ, tandem_dashboard, test2 + + +Group ANASEN = ANASEN_test, ANASEN_test_PC, 202404_24Mg_a_p, 202406_27Al, 202409_17F_ap +Group CATRiNA = 2024_08_19_7Li_3He_n, 2025_05_11B_11B +Group Clarion2 = 20220110_example, 202203_64Ni_7Li, 202411_11B_70Zn +Group ENCORE = 2023_08_Encore, 2025_04_17O_a_n, 2025_10_44Ti_irradiation +Group Gamma-Spectroscopy = testClover +Group Kemper = FSUDAQ_testing +Group Laser-Spectroscopy = EMPTY +Group RESOLUT = 2025_11_7Be_dn_8B +Group RESONEUT = 2022_12Cdn13N, MESYTEC_digitizer, 2022_08_19Ne_dn, 2023_10_17F_pa +Group Split-Pole = 2022_04_SPS_Blocker, 2022_05-06_3He_2H, 2022_05_mirror_transfer, 2022_06_11B_alpha_transfer, 2022_07_REU_dp, 2022_09_10_CeBrA, 2023_01_30_6Li, 2023_02_07_19F_dp, 2023_03_06_32S_6Li_t, 2023_12_12C_6He_LSU, 2024_02_49Ti_d_3He, 2024_07_36S_dp_RU, 2024_07_24Mg_28Si_3He_t, 2024_08_12C_dp_FSUtesting, 2025_02_ICESPICE_Demonstrator, 2025_02_SABRE, 2025_03_SPS_SABRE_58Ni_3He_t, 2025_06_13C_Campaign, 2025_07_29Si_dp, 2025_08_7Li, 2025_10_TritumCommissioning +Group CeBrA = 2023_07_REU, 2023_7_144Sm_6Li_dg, 2024_07_61Ni_dp_RU, 2025_04_180Hf_dpg, 2025_06_150Nd_ptg + +[fsunuc] +Theme = default +Comment = fsunuc.physics.fsu.edu: software installation and configuration +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date, Category +Options Category = Software, Network, Other, elog, grafana, gnuscope, InfluxDB, git, wiki +Extendable Options = Category +Attributes = Author, Email, Revised, Category, Subject +Locked Attributes = Author, Email, Revised +Required 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experiment +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run +Extendable Options = Category +Attributes = Author, Email, Revised, Category, Subject +Locked Attributes = Author, Email, Revised +Required Attributes = Subject +Preset Author = $long_name from $remote_host +Preset Email = $user_email +Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject + +[2022_05_mirror_transfer] +Admin user = admin, rtang, gemmawilson +Theme = default +Comment = +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date, Category +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run, Procedure +Extendable Options = Category +Attributes = Author, Email, Revised, Category, RunNo, Subject +Locked Attributes = Author, Email, Revised +Required Attributes = Subject +Preset Author = $long_name from $remote_host +Preset 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from $remote_host +Preset Email = $user_email +Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject +Entries per page = 100 +All display limit = 1000 + +[2024_08_12C_dp_FSUtesting] +Admin user = admin, rtang, gemmawilson +Theme = default +Comment = +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date, Category +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run, Procedure, Junk +Extendable Options = Category +Attributes = Author, Email, Revised, Category, RunNo, Subject +Locked Attributes = Author, Email, Revised +Required Attributes = Subject +Preset Author = $long_name from $remote_host +Preset Email = $user_email +Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject +Entries per page = 100 +All display limit = 1000 + +[2024_08_19_7Li_3He_n] +Admin user = admin, rtang, gemmawilson +Theme = default +Comment = +Page Title = ELOG - $Subject +Reverse sort 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Subject = Re:$Subject +Entries per page = 100 +All display limit = 1000 + +[2025_03_SPS_SABRE_58Ni_3He_t] +Theme = default +Comment = +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date, Category +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run, Procedure, Junk +Extendable Options = Category +Attributes = Author, Email, Revised, Category, RunNo, Subject +Locked Attributes = Author, Email, Revised +Required Attributes = Subject +Preset Author = $long_name from $remote_host +Preset Email = $user_email +Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject +Entries per page = 100 +All display limit = 1000 + +[2025_04_180Hf_dpg] +Admin user = admin, rtang, alconley +Theme = default +Comment = +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date, Category +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run, Procedure, Junk, Calibration 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+Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject +Entries per page = 100 +All display limit = 1000 + +[2025_07_29Si_dp] +Admin user = admin, rtang, alconley +Theme = default +Comment = +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date, Category +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run, Procedure, Junk +Extendable Options = Category +Attributes = Author, Revised, Category, Subject, Reaction, Angle, Field, BCI Scale, RunNo +Locked Attributes = Author, Revised +Required Attributes = Subject +Preset Author = $long_name from $remote_host +Preset Email = $user_email +Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject +Entries per page = 100 +All display limit = 1000 + +[2025_08_7Li] +Admin user = admin, rtang, alconley +Theme = default +Comment = +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date, Category +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run, Procedure, Junk +Extendable Options = Category +Attributes = Author, Revised, Category, Subject, Reaction, Angle, Field, BCI Scale, RunNo +Locked Attributes = Author, Revised +Required Attributes = Subject +Preset Author = $long_name from $remote_host +Preset Email = $user_email +Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject +Entries per page = 100 +All display limit = 1000 + +[2025_10_44Ti_irradiation] +Admin user = admin, rtang, alconley, Sudarsan +Theme = default +Comment = +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date, Category +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run, Procedure, Junk, Calibration +Extendable Options = Category +Attributes = Author, Revised, Category, Subject, Reaction, RunNo +Locked Attributes = Author, Revised +Required Attributes = Subject +Preset Author = $long_name from $remote_host +Preset Email = $user_email +Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject +Entries per page = 100 +All display limit = 1000 + +[2025_11_7Be_dn_8B] +Theme = default +Comment = Rajat's 7Be(d,n)8B Experiment +Page Title = ELOG - $Subject +Reverse sort = 1 +Quick filter = Date +Options Category = Preparation, Hardware, Software, General, Online Analysis, Other, Run, Instructions +Extendable Options = Category +Attributes = Author, Revised, Category, Subject, Reaction, BCI Scale, RunNo +Locked Attributes = Author, Email, Revised +Required Attributes = Subject +Preset Author = $long_name from $remote_host +Preset Email = $user_email +Preset Revised = $date +Subst on edit Revised = $date +Preset on reply Subject = Re:$Subject + diff --git a/eloss_calculations/make_eloss_table.C b/eloss_calculations/make_eloss_table.C new file mode 100644 index 0000000..0bdea7a --- /dev/null +++ b/eloss_calculations/make_eloss_table.C @@ -0,0 +1,13 @@ +#include "/home/sud/Desktop/Software2/propagator/elastcaller.h" +void make_eloss_table() { + double einput = 6.0, estepnow; + double target_thickness_unit = 1e-3; //mg/cm2. + double density = 0.0711;//mg/cm3 + long i=0; + while(einput > 4.0) { + std::cout << "After " << i << " steps, 4He is at " << einput << " MeV after penetrating " << i*target_thickness_unit << " mg/cm2 " << i*target_thickness_unit/density << " cm of HeCO2" << std::endl; + estepnow = slowmedown("4He",einput,"3(12C)6(16O)97(4He)",target_thickness_unit); + einput = estepnow; + i+=1; + } +} diff --git a/eloss_calculations/stopit/a.out b/eloss_calculations/stopit/a.out new file mode 100755 index 0000000000000000000000000000000000000000..12fac14749741336069a3b62d3151f51d0b3991b GIT binary patch literal 54072 zcmeIb33yaR);E3=av>n(b`+FR)E;e2a3BerhE39tKu4QJ2$*Ojge)YQ&7>os=tL5h zHZ5!v>S3H`P^lqNKr-Zw&CkmWk_;o==!ehKj8l!C zD915O+|LjR?uzS;*vK?q!h0a4dIKpFB^@NdhDsHOlv2I!u8iZv9hDjmQKot(Wo5Z@ 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subroutine desorb(ianz,zp,ap,ep,loste) + +C ** CALCULATES ENERGY LOSS IN AN ABSORBER SANDWICH ******* +C **** ENERGY DEPOSIT IN SECTIONS OF IONIZATION ********** +C *************** CHAMBER (DE1, DE2, AND DE3) ************ + + + PARAMETER (DSEP0=4.0,isold0=1) + + COMMON ISG(19),INN(19),DEN(19),THK(19),PRS(19),XLN(19),ARDEN(19) + 1 ,ZNUMB(19,4),ANUMB(19,4),ELNUM(19,4),CONCN(19,4) + 1 ,PRDEN(19,4),PRTHK(19,4) + DIMENSION ZNUMBW(4),ANUMBW(4),ELNUMW(4),CONCNW(4) + 1 ,PRDENW(4),PRTHKW(4) + DIMENSION E(19),DE(19),xmem(19) + DIMENSION TOUT(19),TOUTE(19) + dimension eptable(50,500,2),emintabz(50),ianzv(5) + real loste(19) + DATA io1,IO2,IO3,io0/9,11,12,1/ + data iopt,ianzi,ianzide/1,2,1/ +c + save eltimo,izmax,izth + +c the mass table is to be used only for iopt = 5,6 +c use atomic masses to average for isotipic composition. +c taken from Formulas Facts and Constants, H. J. Fischbeck and +c K. H. Fischbeck. Springer - Verlag 1987 2nd ed, pages 164-183. + + dimension amass(70) + data amass/1.01,4.00,6.94,9.01,10.81,12.01,14.01,16.00,19.00 + 1,20.18,22.99,24.31,26.98,28.09,30.97,32.07,35.45,39.95 + 2,39.10,40.08,44.96,47.88,50.94,52.00,54.94,55.85,58.93 + 3,58.69,63.55,65.39,69.72,72.59,74.92,78.96,79.90,83.80 + 4,85.47,87.62,88.91,91.22,92.91,95.94,98.,101.07,102.91 + 5,106.42,107.87,112.41,114.82,118.71,121.75,127.60,126.90 + 6,131.29,132.91,137.33,138.91,140.12,140.91,144.24,147. + 7,150.36,151.96,157.25,158.93,162.5,164.93,167.26,168.93 + 8,173.04/ + +c for Z > 70, you are in trouble !! +c +c open(unit=IO1, status='OLD', file='absorb.inp') + open(unit=IO2, status='OLD', file='desorb.out') +c rewind IO1 +c rewind IO2 +c +10 CONTINUE + + +C IOPT = 1 - SUPPLY ENERGY OF PARTICLE ENTERING +C THE ABSORBER ARRAY AND GET LOSS AND +C RANGES +C IOPT = 2 - SUPPLY TARGET, PROECTILE AND EJECTILE +C INFO. AND THEN GO THROUGH ABSORBER +C SANDWICH +C IOPT = 3 - CALCULATE ENERGY DEPOSITS IN DETECTOR +C DETECTOR DIMENSIONS ARE STANDARD AND +C THE VARIABLE -'IDET' - CHOOSES BETWEEN +C VARIETY OF AVAILABLE DETECTORS +C IOPT = 4 - FINDS MAXIMUM ENERGY THAT CAN BE STOPPED IN +C IANZ ELEMENTS OF THE SANDWICH FOR GIVEN +C ZP, AP. +C WHEN CALCULATION IS FINISHED, THE PROGRAM READS +C IN NEW VALUES OF ZP, AP AND RESTARTS. TO END +C THE PROGRAM, GIVE ZP < 0. +C IN ORDER TO HELP THE SPEED OF THE PROGRAM, +C GIVE THE PARTICLE'S "Z" IN increasing ORDER. +C IOPT = 5 - STORES ARRAYS OF Edet AS A FUNCTION OF INCIDENT +C ENERGY AND THE PARTICLE'S ID (Z,A) +C ARRAY LABELED eptable(Z-Zth,Einc,ipunch) +C ipunch = 1 stopped, = 2 punched through +c Einc = E(incident)/detable +C Zth = lowest Z considered - 1 +C +C ************************************************************ + +c read(io1,*) iopt +c1 FORMAT(10I) + DSEP = DSEP0 + isold = isold0 +c + IF(iopt.LT.0) GO TO 2000 + + +C *********************************************************** +c + if(iopt.eq.3) then + open(unit=IO3, status='OLD', file='absorbv.out') + rewind IO3 + endif +c + if(iopt.ge.5) then + do itpun = 1,2 + do itblz = 1,50 + emintabz(itblz) = 0. + do itble = 1,500 + eptable ( itblz,itble,itpun ) = 0. + enddo + enddo + enddo +c + open(unit=io0, status='UNKNOWN', file='abs.tbl') + rewind io0 +c + else + endif + +C *********************************************************** + +c ianz = number of elements in absorber "sandwich" - the +c particle deposits all its energy in these layers. +c ianzi = index of last layer in which the energy of the +c particle is not recorded - this unreecorded energy +c is used in the DST production in two modes: +c when making DST tape from data: +c Since the detector records only deposited energy +c the output tables are used to correct for this +c deficinecy and for a given dharge and mass extrapolate +c the measured energy to the target exit energy +c when making DST tape from model calculations: +c The "lost" energy is a source of broadening of the +c energy spectra due to straggling - this "smearing" +c is estimated and superposed on the calculated spectra. +c ianzide = element # for DE calculation +c +c read(IO1,*) ianz,ianzi,ianzide +c +c ianzv(5) +c = Index of layer where exiting particle velocit is +c calculated (only for option 3) max = 5 +c +c if(iopt.eq.3) read (IO1,*) knz +c if(iopt.eq.3) read (IO1,*) (ianzv(k),k=1,knz) +C *********************************************************** + +C AP = PROJECTILE MASS +C ZP = PROJECTILE CHARGE +C EP = PROJECTILE ENERGY +c +c read(io1,*) zp,ap,ep +2 FORMAT(f10.3) + +C ************************************************************* +c +c zth= threshold Z for incident energy tble calc. (iopt=5,6) +c zmax = maximum z for table calculation +c detable = the energy step size used for array storage +c emin = starting incident energy for table +c emax = mazximum incident energy for table calculation +c EP is ignored when iopt = 5 or 6 +c + if(iopt.ge.5) then + read(IO1,*) zth,zmax,emintab,emaxtab,detable + eltimeo = secnds(0.0) ! start timing + izth = ifix (zth + 0.01) + izmax = ifix (zmax + 0.01) +c +c if detable > emintab change emintab to 1/2 * detable +c + if(emintab.lt.detable) emintab = 0.5*detable + write(io2,291) zth+1,zmax,emintab,emaxtab,detable + else + endif +c +C ************************************************************ + +C IN THE FOLLOWING THE LISTED VARIABLES ARE INDEXED +C THE INDICES I AND J STAND FOR THE FOLLOWING: +C - I - SERIAL NUMBER OF ABSORBER LAYER (<20) +C - J - SERIAL NUMBER OF ELEMENT WITHIN LAYER (<5) + +C ************************************************************* + + +C ISG(I) = 0 - FOR SOLID ABSORBERS +C (I) = 1 - FOR GASEOUS ABSORBERS +C INN(I) = NUMBER OF ELEMENTS IN ONE LAYER +C (E.G. CH4 HAS TWO ELEMENTS C AND H) +C DEN(I) = DENSITY OF ABSORBE (FOR SOLIDS) +C THK(I) = THICKNESS OF ABSORBER IN MG/CMSQ (FOR SOLIDS) +C PRS(I) = PRESSURE (IN MM HG) FOR GAS ABSORBER +C XLN(I) = PHYSICAL LENGTH OF ABSORBER ( IN CM ) FOR GAS + +C **** ABSORBER COMPOSITION **** + +C ELNUM(I,J) = NUMBER OF ATOMS OF ELEMENT J IN LAYER I +C CONCN(I,J) = CONCENTRATION (MOLAR) OF ELEMENT J IN LAYER I +C ANUMB(I,J) = MASS NUMBER OF ELEMENT J IN LAYER I +C ZNUMB(I,J) = ATOMIC NUMBER OF ELEMENT J IN LAYER I + +C PRDEN(I,J) = PARTIAL DENSITY OF ELEMENT J IN LAYER I +C PRTHK(I,J) = PARTIAL THICKNESS OF ELEMENT J IN LAYER I (MG/CMSQ) + +C MAXIMUM OF NINETEEN LAYERS SPECIFIED + + +C ************************************************************* + + DO 100 ISN=1,IANZ +c read(io1,*) ISG(ISN),INN(ISN) + IF(ISG(ISN).EQ.1) GO TO 50 +c read(io1,*) DEN(ISN),THK(ISN) + TOUT(ISN)=THK(ISN)/(DEN(ISN)*1000.) + TOUTE(ISN)=TOUT(ISN)/2.54 + DO 20 IMN=1,INN(ISN) +c read(io1,*) ANUMB(ISN,IMN),ZNUMB(ISN,IMN), +c 1 ELNUM(ISN,IMN),CONCN(ISN,IMN) +20 CONTINUE + GO TO 100 +50 continue +c read(io1,*) PRS(ISN),XLN(ISN) + DO 60 IMN=1,INN(ISN) +c read(io1,2) ANUMB(ISN,IMN),ZNUMB(ISN,IMN), +c 1 ELNUM(ISN,IMN),CONCN(ISN,IMN) +60 CONTINUE +100 CONTINUE + +C **************************************************************** + + if(iopt.ne.5.and.iopt.ne.6) WRITE(IO2,101) ap,zp,ep + if(iopt.ne.5.and.iopt.ne.6) WRITE(IO2,102) ianz + +C ***************************************************************** + + DO 200 I=1,ianz + INNW=INN(I) + DO 210 J=1,INNW + ANUMBW(J)=ANUMB(I,J) + ZNUMBW(J)=ZNUMB(I,J) + ELNUMW(J)=ELNUM(I,J) + CONCNW(J)=CONCN(I,J) +210 CONTINUE + DENW=DEN(I) + XLNW=XLN(I) + PRSW=PRS(I) + THKW=THK(I) + IF(ISG(I).EQ.1) GO TO 250 + CALL SETABS(INNW,ANUMBW,ZNUMBW,ELNUMW,PRTHKW,THKW,PRDENW,DENW) + DO 230 J=1,INNW + PRDEN(I,J)=PRDENW(J) + PRTHK(I,J)=PRTHKW(J) +230 CONTINUE + GO TO 200 + +250 CALL SETABG(INNW,ANUMBW,ZNUMBW,ELNUMW,CONCNW,PRTHKW,THKW + 1, PRDENW,DENW,PRSW,XLNW) + DEN(I)=0. + THK(I)=0. + DO 270 J=1,INNW + PRDEN(I,J)=PRDENW(J) + PRTHK(I,J)=PRTHKW(J) + DEN(I)=DEN(I)+PRDEN(I,J) + THK(I)=THK(I)+PRTHK(I,J) +270 CONTINUE +200 CONTINUE + +C ************************************************************* + +C START CALCULATION AND DETAILED PRINTOUT + +C ************************************************************* +c + if(iopt.ge.5) then + ep = emintab + zp = zth + 1. + indexz = ifix (zp - zth + 0.001) + endif +c +299 continue ! come here for new particle (zp change) + + izp = ifix (zp+0.001) +c + if(iopt.ge.5) then + if (izp.gt.70) then + write (6,*) 'no mass for Z = ',izp + stop + else + ap = amass(izp) + +c The trick!. To calculate energy losses for deuterons and tritons, +c enter zth = 0.2 and 0.3 respectively. E. Chavez jul/92 + + if (izp.eq.1) then + iap = ifix (zth*10.0 + 0.1) + ap = float (iap) + end if + end if + end if +c + if (iopt.eq.6) then + ideltalay = 8 ! choose DE3 for eloss signal + if(izp.eq.1) ideltalay = 16 ! choose DEh for eloss signal + endif +c +300 CONTINUE ! come here for new energy (ep) +c + EI=ep + XUPDN=-1. + EPS=0.0001 + I1STPASS = 1 + + IF (iopt.EQ.4) GO TO 600 + + ipunch = 2 + DO 510 I=1,IANZ ! begin loop over absorber layers +c + if(iopt.ge.5) go to 504 + IF(ISG(I).EQ.0) WRITE(IO2,311) I,THK(I),TOUT(I),TOUTE(I),DEN(I) + IF(ISG(I).EQ.1) WRITE(IO2,312) I,THK(I),PRS(I),XLN(I),DEN(I) + DO 320 J=1,INN(I) + WRITE(IO2,321) ANUMB(I,J),ZNUMB(I,J),PRTHK(I,J) +320 CONTINUE +504 continue +c +c XNS - initial no. of intervals for integration of DE + XNS = 2. +c EI = energy in + CALL ADS(I,XUPDN,XNS,EPS,ap,zp,EI,DEI,ISTAT) +c DEI = energy out - energy in ( < 0. for energy loss) + EIOLD=EI +c E(I) = energy left after I'th element (EP-DE(1)-DE(2)+...) +c if particle stopped in detector this is equal to energy lost +c in remaining layers + DE(I) = DEI + E(I) = EI + DEI + EI = E(I) + INS=IFIX(XNS+0.001) +c + if (iopt.ge.5) go to 505 + WRITE(IO2,401) INS,EIOLD,EI + loste(i)=-1.*de(i) + if (EI.LT.EPS.OR.ISTAT.EQ.-1) WRITE(IO2,402) I +505 continue + loste(ianz + 1)=e(ianz) +c +c if particle stopped in layer beyond ianzi we must +c check if iopt=5 or6 and calculate the energy loss in the +c front part (layers 1 thru ianzi). +c + istore = I + if (EI.lt.EPS) ipunch=1 +c control loop exit +c exit when particle runs out of energy in last layer + if (EI.LT.EPS.OR.ISTAT.EQ.-1) go to 701 +c if interested in DE signal only (iopt=6) exit after +c layer for which DE is sought was traversed + if(iopt.eq.6.and.I.ge.ianzide) go to 701 +c +510 CONTINUE ! end loop over absorber layers + +c this part for iopt=5,6 stores incident energy values + +701 continue + if(iopt.ne.5.and.iopt.ne.6) go to 520 +c +c establish higher energy cutoof for next step with higher z +c should save time in calulating energies of particles stopped +c in the dead layer + if( I.le.ianzi) emintabz(izp)=ep +c +c evalue = energy of particle when entering sensitive volume of det. +c when particle is stopped (ipunch=1) this is what is left +c once you take off the energy lost in the dead layer. + evalue = E(ianzi) +c = when particle punches thouough detector its energy at the +c end is EI - subtract this from what it entered with (after +c dead layers) and again you got the energy deposited. + if(ipunch.eq.2) evalue = E(ianzi) - EI +c roundoff errors could resutl in negative energies !! + if (evalue.lt.0.0) evalue = 0.0 + +c EI is current energy after last layer - is nonzero when particle +c punched through and to get energy deposited must subtract this +c "left over" energy from the energy of particle had when it entered +c the detector's sensitive volume + indexe = ifix((ep + 0.001)/detable) + 1 + indexz = ifix(zp - zth + 0.001) + if(iopt.eq.5) eptable(indexz,indexe,ipunch) = evalue + if(iopt.eq.6) ipunch = 1 + if(iopt.eq.6) eptable(indexz,indexe,ipunch) = -DE(ianzide) + +c now repeat calculation for same Z but new energy + ep = ep + detable + if(ep.gt.emaxtab) go to 709 + go to 300 + +709 continue +c reset energy to emintab and up zp by one until we top +c zmax - this portion controls looping over Z! + + do ieps = 1,ianz + E(ieps) = 0. + DE(ieps) = 0. + enddo + + ep = emintabz(izp) + zp = zp + 1. + izp = ifix(zp + 0.001) + emintabz(izp) = emintabz(izp-1) + + eltime = secnds (eltimeo) + itminutes = ifix(eltime/60.) + tminutes = float(itminutes) + tseconds = eltime - tminutes*60. + eltimeo = eltimeo + eltime + zpm1 = zp - 1. + if((izp-1).le.izmax) write(io2,714) zpm1,ap,tminutes,tseconds + 714 format(' finished Z=',f3.0,' A=',f4.0,' - ',f5.0, + +' minutes and ',f3.0,' seconds elapsed') + + if (izp.ge.izmax) go to 711 + go to 299 + +711 continue + +c get here when iopt = 5 or 6 calculation is done +c now ready to store array on disk + write(io0,712) zth,zmax,emintab,emaxtab,detable + + iemintab = ifix( (emintab + 0.001)/detable ) + 1 + iemaxtab = ifix( (emaxtab + 0.001)/detable ) + iztop = ifix(zp - 1. - zth + 0.001) + + do ipp = 1,2 + do indexz = 1, iztop + iztab = indexz + ifix(zth+0.01) + imasstab = ifix(amass(iztab) + 0.1) + if(iztop.eq.1) imasstab = ifix(ap + 0.1) + write(io0,7712) indexz,iztab,imasstab,iemintab,iemaxtab +7712 format(5i20) + itblow = iemintab + do indexe = iemintab,iemaxtab,10 + itbup = itblow + 9 + write(io0,713) (eptable(indexz,itbe,ipp),itbe=itblow,itbup) + itblow = itbup + 1 + enddo + enddo + enddo +712 format(5e16.8) +713 format(10e16.8) +c + close (unit = io0) +c +C MORE INPUT FOR NEW CALCULATION WITH SAME ABSORBERS + +520 CONTINUE + + +c read(io1,*) zp,ap,ep + zp = -1. + IF(zp.le.0.) GO TO 2000 + izp = ifix(zp + 0.001) + if(ap.le.0.) AP = amass(izp) + IF(zp.gt.0.) WRITE(IO2,101) ap,zp,ep + GO TO 299 + +600 DO I = 1, ianz + ILAY = I + XNS = 2.0 + CALL ADS(I,XUPDN,XNS,EPS,ap,zp,EI,DEI,ISTAT) + EIOLD = EI + DE(I) = DEI + E(I) = EI + DEI +c E(I) = energy left after I'th element (EP+DE(1)+DE(2)+...) +c if particle stopped in detector this is equal to energy lost +c in remaining layers + xmem(i) = E(I) + EI = E(I) + INS = IFIX(XNS + 0.001) +c WRITE (IO2,613) ILAY,INS,EI,ISTAT + IF (EI.LE.0.0.OR.ISTAT.EQ.-1) GO TO 601 + END DO + + +601 IF (ISTAT.EQ.0)THEN + IF (EI.LT.0.003.AND.EI.GE.0.0) THEN + WRITE(IO2,611) ap,zp,ep,ILAY,xmem(5),xmem(6),xmem(7) + read(io1,*) zp,ap + izp = ifix (zp + 0.001) + if(ap.le.0.) ap = amass(izp) + IF (zp.LT.0.0) GO TO 2000 + IPASS = 0 + I1STPASS = 1 + EI = ep + GO TO 600 + END IF + isign = isold + isold = 1 + ELSE + isign = - isold + isold = -1 + END IF + + IF (I1STPASS.gt.0) THEN + isign = 1 + I1STPASS = 0 + IF (ISTAT.EQ.0) THEN + DSEP = - DSEP0 + ELSE + DSEP = DSEP0 + END IF + END IF + +C IF THE INITIAL ENERGY WAS TOO LARGE, THEN THE ION WILL PUNCH THROUGH +C THE DETECTOR A NUMBER OF TIMES UNTIL THE ENERGY IS REDUCED BELOW +C THE PUNCH-THROUGH ENERGY (PTE). IF THE INITIAL ENERGY WAS TOO SHORT +C THEN IT WON'T UNTIL PTE IS REACHED. IN THIS MOMENT, IPASS IS SET TO +C ONE, AND FROM THIS POINT EVERY FURTHER CALCULATION WILL IMPLY A +C REDUCTION BY HALF OF THE SIZE OF "DSEP", AND A CHANGE OF SIGN ONLY +C IF APROPRIATE. + + IF (isign.LT.0) IPASS = 1 !IPASS=1 UNTIL "PTE" IS FOUND. + IF (IPASS.EQ.1) DSEP = isign * DSEP * 0.5 + + IF (ABS(DSEP).LT.0.05) THEN + EI = 0.00001 + ISTAT = 0 + GO TO 601 + END IF + + EP = EP + DSEP + ei = ep + + GO TO 600 + +1000 CONTINUE + GO TO 10 +2000 CONTINUE + +101 FORMAT(//////' PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER', + 1 ' SANDWICH '////' AP = ',F6.0,' ZP = ',F5.0, + 1 ' INITIAL ENERGY = ',F12.5//) +102 FORMAT(' ABSORBER SANDWICH CONTAINS - ',I2,' LAYERS'//) +291 format(' start absorber calculations for z =',f3.0 + +,' to z =',f3.0,/' and energies from emin =',f6.2 + +,' to emax =',f7.2,' in ',f6.2,'MeV steps') +311 FORMAT(//' LAYER # ',I2,' - SOLID ABSORBER - ', + 1' AREAL DENSITY = ',E10.4/' THICKNESS = ',E10.4, + 1' CM OR ',E10.4,' INCH DENSITY =',E10.3,' G/CM3') +312 FORMAT(//' LAYER # ',I2,' - GAS ABSORBER - ', + 1' AREAL DENSITY = ',E10.4/' PRESSURE = ',E10.4, + 1' TORR LENGTH ',E9.4,'CM DENSITY =',E9.3,'MG/CM3') +321 FORMAT(7X,' A =',F6.0,' Z =',F5.0,' AREAL DENSITY' + 1,' (PARTIAL) = ',E12.5,' MG/CMSQ') +401 FORMAT(' CALC IN-',I4,' STEPS' + 1,' ENERGY IN = ',F8.3,' ENERGY OUT = ',F8.3 + 2,'(MEV)') +402 FORMAT(' CHARGED PARTICLE STOPPED IN LAYER # ',I2) +613 FORMAT (2X,'LAYER= ',I2,': ',I6,' ITERATIONS' + 1, ', E final= ',F10.4,' STATUS= ',I2) +611 FORMAT (2X,'Ion (A , Z): (',F4.0,' , ',F3.0 + 1,'), E(MeV)= ',F7.2,' STOPPED IN LAYER ',I2/ + 1' Esum = ',f7.2,' Esum-E1 = ',f7.2, + 1' Esum-E1-E2 = ',f7.2) +703 format(' eptable (',i2,', ',i3,', ',i1,' ) =',f8.2) + + return + END + + SUBROUTINE ADS(I1,SIGN,XN1,EPS,A,Z,E,DEE,ISTAT) + +C SUBROUTINE FOR ENERGY LOSS CALCULATIONS +C CALL DEDX FRO STOPPING POWER CALCULATIONS + + COMMON ISG(19),INN(19) + 1 ,DEN(19),THK(19),PRS(19),XLN(19),ARDEN(19) + 1 ,ZNUMB(19,4),ANUMB(19,4),ELNUM(19,4),CONCN(19,4) + 1 ,PRDEN(19,4),PRTHK(19,4) + +C N1= NUMBER OF SUBDIVISIONS FOR INTEGRATION +C OF ENERGY LOSS + +1000 CONTINUE + EH = E + N1 = IFIX(XN1+0.001) + DEDNEXT = 0. + DO 1010 K=1,N1 + J1 = INN(I1) + ISGW = ISG(I1) + I = I1 + DO 1001 J = 1,J1 + AX = ANUMB(I,J) + ZX = ZNUMB(I,J) + FX = PRTHK(I,J)/XN1 + DENST = PRDEN(I,J) + VH = VEL(EH,A) + CALL DEDX(Z,A,ZX,AX,DENST,EH,VH,ISGW,DEX,DE) + EH = EH + DE*SIGN*FX + IF(EH.LE.0.) THEN + IF (K.LE.2) THEN + N1 = N1 * 2 + XN1 = FLOAT(N1) + GO TO 1000 + END IF + ISTAT = -1 + GO TO 9910 + END IF + IF (K.LE.2) DEDNEXT = DEDNEXT + DE * FX +1001 CONTINUE + IF (K.EQ.1) THEN + DED1ST = DEDNEXT + DEDNEXT = 0.0 + END IF + IF (K.EQ.2) THEN + DDD = DED1ST - DEDNEXT + IF(DDD.LT.0.) DDD=-DDD + DDS = DED1ST + DEDNEXT + DDR = DDD/DDS + IF(DDR.GT.EPS) THEN + N1 = N1 * 2 + XN1 = FLOAT(N1) + GO TO 1000 + END IF + END IF +1010 CONTINUE + + ISTAT = 0 +9910 DEE = EH-E + + RETURN + END + + SUBROUTINE SETABS(INW,A,Z,AN,T,TH,D,DN) + +C SUBROUTINE FOR SETTING UP COMPOSITE ABSORBER +C DATA (PARTIAL DENSITIES AND THICKNESSES) + + DIMENSION A(4),Z(4),AN(4),T(4),D(4) + + AW=0. + DO 1 I=1,INW + AW=AW+A(I)*AN(I) +1 CONTINUE + DO 2 I=1,INW + AN(I)=A(I)*AN(I)/AW + T(I) = TH*AN(I) + D(I) = DN*AN(I) +2 CONTINUE + + RETURN + END + + SUBROUTINE SETABG(INW,A,Z,AN,CN,T,TH,D,DN,PR,XL) + +C SUBROUTINE FOR SETTING UP COMPOSITE ABSORBER DATA +C FOR GASEOUS LAYERS. + + DIMENSION A(4),Z(4),AN(4),CN(4),T(4),D(4) + + + P = PR/760. + X = XL/22.4 + + AWW=0. + AW=0. + DO 1 I=1,INW + AW = AW +A(I)*AN(I) + AWW= AWW+A(I)*AN(I)*CN(I) + T(I) = P*X*A(I)*AN(I)*CN(I) + D(I) = T(I)/XL +1 CONTINUE + RETURN + END + + FUNCTION VEL(ENER,A1) + + VV=SQRT(2.13E-3*ENER/A1) + VEL=VV + RETURN + END + + FUNCTION FKINEM(EP,AP,AT,TH) + + IF(AP.GT.AT) GOTO 100 + E=EP*AP**2/(AP+AT)**2 + E=E*(COS(TH)+SQRT((AT/AP)**2-SIN(TH)**2))**2 + FKINEM=E + RETURN +100 FKINEM=0. + RETURN + END + + FUNCTION FFKIN(EP,AP,AT,TH,Q) + +C INELASTIC SCATTERING + B=AP**2*EP/(AP+AT)**2/(EP+Q) + D=AT**2/(AP+AT)**2*(1.+AP*Q/AT/(EP+Q)) + E=(EP+Q)*B*(COS(TH)+SQRT(D/B-SIN(TH)**2))**2 + FFKIN=E + RETURN + END + + SUBROUTINE DEDX(Z1,A1,Z2,A2,RHO,ENER,V,IFG,DEDXHI,DEDXTO) + +C PROGRAM CALCULATES THE DIFFERENTIAL ENERGY LOSS DE/DX IN SOLID +C TARGETS USING A SEMIEMPIRICAL FORMULA DEDUCED FROM EXPERIMENTAL +C THE PROGRAM IS MODIFIED FOR GAS ABSORBERS. + +C REF.: K.BRAUNE,R.NOVOTNY,D.PELTE,D.HUSAR,D.SCHWALM, +C PROCEEDINGS - SPRING MEETING OF THE GERMAN PHYSICAL +C SOCIETY, VERHANDLUNGEN 4/1978 + +C K.BRAUNE, DIPLOM, HEIDELBERG 1979 + + +C H(Z2) IS A SUM OF FIVE GAUSSIAN FUNCTIONS. +C A1 MASS NUMBER - PROJECTILE +C Z2 ATOMIC NUMBER ABSORBER +C A1 MASS NUMBER ABSORBER +C RHO DENSITY OF THE ABSORBER (GRAMM/CM**3) +C (MEANLESS IF GAS ABSORBER ) +C ENER ENERGY OF THE PROJECTILE (MEV) +C V VELOCITY OF THE PROJECTILE +C IN MEV/(MG/CM**2) +C Z1 ATOMIC NUMBER - PROJECTILE + + IF(IFG.EQ.1) RHO=1. + XI=V**2/Z2 +C +C ABSORBER - FUNCTION +C G(XI)=Y(EXP)-Y(THEORY) - IS DEDUCED FROM EXPERIMENTAL ENERGY LOSS +C MEASUREMENTS. +C +C IF THE SAME ABSORBER WAS USED BEFORE , GO TO STATEMENT # 55 + + IF(A2.EQ.A2SAV.AND.Z2.EQ.Z2SAV) GOTO 55 + + Z2SAV=Z2 + A2SAV=A2 + +C FUNCTION Y + + FY=54721.*(1.+5.15E-2*SQRT(A2/RHO)-EXP(-0.23*Z2)) + IF(IFG.NE.1) GOTO 10 + FY=54721.*(1.35-EXP(Z2*(-.13+.0014*Z2))) + +C G(XI) IS THE DERIVATION OF A GASSIAN WITH VARIABLE HEIGHT H(Z2). + +10 IF(Z2.GT.26.) GOTO 20 + G1=19.84*EXP(-.17*(Z2-4.25)**2) + GOTO 35 +20 G1=0.000001 + IF(Z2.GT.38.) GOTO 40 +35 G2=17.12*EXP(-.12*(Z2-11.63)**2) + GOTO 50 +40 G2=0.0000001 +50 G3=7.95*EXP(-.015*(Z2-30.2)**2) + G4=5.84*EXP(-.022*(Z2-48.63)**2) + G5=7.27*EXP(-.005*(Z2-73.06)**2) + HZ2=(9.-(G1+G2+G3+G4+G5))*1.32E-5 + ZWD=2./3. + Z2ZWD=Z2**ZWD + +C MULTIPLICATIONFACTORS OF G(XI) + + FG=1.2E-4*Z2*Z2+2.49E-2*A2/RHO + IF(IFG.NE.1) GOTO 52 + FG=1.3/(1.+EXP(3.-Z2/5.)) +52 ALEFG=ALOG(2.7E-5/FG) + +C CALCULATION OF G(XI) + +55 GXI=0. + IF(XI.GE.1.E-9.AND.XI.LE.5.E-4) THEN + + SQXI=SQRT(XI) + C=2./Z2*SQXI/(1.+1.E4*SQXI) + IF(IFG.EQ.1) C=C/2. + FG0=1./(1.+(XI*10000.)**3) + AL=ALOG(XI)-ALEFG + GXI=(C-HZ2*AL*EXP(-.32*AL*AL))*FG0 + ENDIF + +C CALCULATION OF Y(XI) + Y=3.3E-4*ALOG(1.+XI*FY)+GXI +C ENERGY LOSS OF HEAVY IONS +C EFFECTIVE CHARGE + VV0=V*137. + FV=1. + IF(V.LE..62) FV=1.-EXP(-VV0) + AZ1=ALOG(1.035-.4*EXP(-.16*Z1)) + + QQ=V/Z1**.509 + GHI=Z1 + VZ1=(-116.79-3350.4*QQ)*QQ + IF(VZ1.GT.-85.2) GHI=Z1*(1.-EXP(VZ1)) + IF(Z1.GT.2.) GHI=Z1*(1.-EXP(FV*AZ1-0.879*VV0/Z1**0.65)) + +C EFFECTIVE CHARGE FOR PROTONS AND ALPHA PARTICLES + +C ******************** RESULTS ******************** + +C ELECTRONIC ENERGY LOSS DEDXHI + + DEDXHI=GHI*GHI*Z2*Y/(A2*V**2) + +C NUCLEAR ENERGY LOSS DEDXNU + + ZA=SQRT(Z1**(ZWD)+Z2ZWD) + EPS=3.25E4*A2*ENER/(Z1*Z2*(A1+A2)*ZA) + SIGMAN=1.7*SQRT(EPS)*ALOG(EPS+2.1718282)/ + 1 (1.+6.8*EPS+3.4*EPS**1.5) + DEDXNU=SIGMAN*5.105*Z1*Z2*A1/(ZA*A2*(A1+A2)) + +C TOTAL ENERGY LOSS DEDXTO + + DEDXTO=DEDXHI+DEDXNU + + RETURN + END +c diff --git a/eloss_calculations/stopit/desorb.out b/eloss_calculations/stopit/desorb.out new file mode 100644 index 0000000..ed1117c --- /dev/null +++ b/eloss_calculations/stopit/desorb.out @@ -0,0 +1,88435 @@ + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 0.123 ENERGY OUT = 0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 0.223 ENERGY OUT = 0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 0.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 0.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 0.523 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 0.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 0.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 0.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 0.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 5.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 6.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 7.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 8.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.523 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.723 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 9.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.023 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.123 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.223 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.723 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 10.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.123 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.223 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.523 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.623 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.723 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 11.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.023 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.223 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.423 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.623 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.723 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.823 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 12.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.023 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.123 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.423 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.523 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.723 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.823 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 13.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.123 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.223 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.423 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.723 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.823 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 14.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.023 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.523 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.623 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.823 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 15.923 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.023 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.223 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.423 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.523 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.623 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.823 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 16.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.023 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.223 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.323 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.423 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.623 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.823 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 17.923 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.123 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.223 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.323 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.423 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.523 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.623 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.723 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.823 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 18.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.023 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.223 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.423 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.523 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.623 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.723 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.823 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 19.923 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.023 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.223 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.423 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.623 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.723 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.823 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 20.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 21.023 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 21.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 21.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 21.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 21.423 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 21.523 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 21.623 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 21.723 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 21.823 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 21.923 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.023 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.123 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.223 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.323 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.423 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.523 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.623 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.723 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.823 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 22.923 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.023 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.123 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.223 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.323 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.423 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.523 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.623 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.723 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.823 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 23.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.023 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.123 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.223 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.323 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.423 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.523 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.623 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.723 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.823 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 24.923 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.023 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.123 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.223 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.323 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.423 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.523 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.623 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.723 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.823 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 25.923 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.023 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.223 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.323 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.423 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.523 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.723 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.823 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 26.923 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.023 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.223 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.323 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.423 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.523 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.723 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.823 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 27.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.023 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.223 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.423 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.523 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.623 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.723 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.823 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 28.923 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.023 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.223 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.423 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.523 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.623 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.723 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.823 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 29.923 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.023 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.123 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.223 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.323 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.423 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.523 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.623 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.723 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.823 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 30.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.023 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.123 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.223 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.423 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.523 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.623 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.823 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 31.923 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 32.023 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 32.123 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 32.223 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 32.323 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 32.423 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 32.523 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 32.623 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 32.723 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 32.823 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 32.923 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.023 ENERGY OUT = -0.007(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.123 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.223 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.323 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.423 ENERGY OUT = -0.007(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.523 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.623 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.723 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.823 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 33.923 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.023 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.123 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.223 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.323 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.423 ENERGY OUT = -0.011(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.523 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.623 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.723 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.823 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 34.923 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.023 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.123 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.223 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.323 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.423 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.523 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.623 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.723 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.823 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 35.923 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.023 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.123 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.223 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.323 ENERGY OUT = -0.007(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.423 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.523 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.623 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.723 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.823 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 36.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.023 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.123 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.223 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.323 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.423 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.523 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.623 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.723 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.823 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 37.923 ENERGY OUT = -0.007(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.023 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.123 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.223 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.323 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.423 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.523 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.623 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.723 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.823 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 38.923 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.023 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.123 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.223 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.323 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.423 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.523 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.623 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.723 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.823 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 39.923 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.023 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.123 ENERGY OUT = -0.007(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.223 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.323 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.423 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.523 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.623 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.723 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.823 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 40.923 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.023 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.123 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.223 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.323 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.423 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.523 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.623 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.723 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.823 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 41.923 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.023 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.123 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.223 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.323 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.423 ENERGY OUT = -0.011(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.523 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.623 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.723 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.823 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 42.923 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.023 ENERGY OUT = -0.004(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.123 ENERGY OUT = -0.003(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.223 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.323 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.423 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.523 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.623 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.723 ENERGY OUT = -0.005(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.823 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 43.923 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.023 ENERGY OUT = -0.007(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.123 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.223 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.323 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.423 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.523 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.623 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.723 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.823 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 44.923 ENERGY OUT = -0.008(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.023 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.123 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.223 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.323 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.423 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.523 ENERGY OUT = -0.009(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.623 ENERGY OUT = -0.010(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.723 ENERGY OUT = -0.002(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.823 ENERGY OUT = -0.006(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 0.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 2 STEPS ENERGY IN = 0.000 ENERGY OUT = NaN(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 45.923 ENERGY OUT = 1.041(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 1.04100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 1.041 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.023 ENERGY OUT = 2.078(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.07800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.078 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.123 ENERGY OUT = 2.886(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 2.88600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 2.886 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.223 ENERGY OUT = 3.577(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 3.57700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 3.577 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.323 ENERGY OUT = 4.194(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.19400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.194 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.423 ENERGY OUT = 4.757(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 4.75700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-**** STEPS ENERGY IN = 4.757 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.523 ENERGY OUT = 5.280(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.28000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 5.280 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.623 ENERGY OUT = 5.771(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 5.77100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 5.771 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.723 ENERGY OUT = 6.236(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.23600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 6.236 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.823 ENERGY OUT = 6.679(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 6.67900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 6.679 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 46.923 ENERGY OUT = 7.104(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.10400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-8192 STEPS ENERGY IN = 7.104 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.023 ENERGY OUT = 7.512(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.51200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 7.512 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.123 ENERGY OUT = 7.906(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 7.90600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 7.906 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.223 ENERGY OUT = 8.287(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.28700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 8.287 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.323 ENERGY OUT = 8.657(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 8.65700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 8.657 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.423 ENERGY OUT = 9.016(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.01600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 9.016 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.523 ENERGY OUT = 9.366(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.36600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 9.366 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.623 ENERGY OUT = 9.708(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 9.70800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 9.708 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.723 ENERGY OUT = 10.041(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.04100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 10.041 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.823 ENERGY OUT = 10.368(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.36800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 10.368 ENERGY OUT = -0.001(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 47.923 ENERGY OUT = 10.687(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 10.68700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 10.687 ENERGY OUT = -0.000(MEV) + CHARGED PARTICLE STOPPED IN LAYER # 1 + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 48.023 ENERGY OUT = 11.001(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.00100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 11.001 ENERGY OUT = 0.067(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 48.123 ENERGY OUT = 11.308(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.30800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 11.308 ENERGY OUT = 1.372(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 48.223 ENERGY OUT = 11.610(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.61000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 11.610 ENERGY OUT = 2.364(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 48.323 ENERGY OUT = 11.907(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 11.90700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 11.907 ENERGY OUT = 3.156(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 48.423 ENERGY OUT = 12.199(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.19900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 12.199 ENERGY OUT = 3.841(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-4096 STEPS ENERGY IN = 48.523 ENERGY OUT = 12.486(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.48600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 12.486 ENERGY OUT = 4.454(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 48.623 ENERGY OUT = 12.778(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 12.77800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 12.778 ENERGY OUT = 5.035(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 48.723 ENERGY OUT = 13.057(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.05700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 13.057 ENERGY OUT = 5.559(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 48.823 ENERGY OUT = 13.332(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.33200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 13.332 ENERGY OUT = 6.053(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 48.923 ENERGY OUT = 13.603(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.60300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 13.603 ENERGY OUT = 6.520(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.023 ENERGY OUT = 13.871(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 13.87100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 13.871 ENERGY OUT = 6.967(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.123 ENERGY OUT = 14.135(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.13500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 14.135 ENERGY OUT = 7.395(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.223 ENERGY OUT = 14.396(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.39600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 14.396 ENERGY OUT = 7.807(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.323 ENERGY OUT = 14.655(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.65500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 14.655 ENERGY OUT = 8.206(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.423 ENERGY OUT = 14.910(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 14.91000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 14.910 ENERGY OUT = 8.591(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.523 ENERGY OUT = 15.162(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.16200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 15.162 ENERGY OUT = 8.964(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.623 ENERGY OUT = 15.412(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.41200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 15.412 ENERGY OUT = 9.329(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.723 ENERGY OUT = 15.659(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.65900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 15.659 ENERGY OUT = 9.683(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.823 ENERGY OUT = 15.903(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 15.90300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 15.903 ENERGY OUT = 10.028(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 49.923 ENERGY OUT = 16.145(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.14500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 16.145 ENERGY OUT = 10.366(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.023 ENERGY OUT = 16.385(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.38500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 16.385 ENERGY OUT = 10.697(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.123 ENERGY OUT = 16.623(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 16.623 ENERGY OUT = 11.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.223 ENERGY OUT = 16.859(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 16.85900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 16.859 ENERGY OUT = 11.340(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.323 ENERGY OUT = 17.092(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.09200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 17.092 ENERGY OUT = 11.651(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.423 ENERGY OUT = 17.323(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 17.323 ENERGY OUT = 11.957(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.523 ENERGY OUT = 17.553(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.55300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 17.553 ENERGY OUT = 12.259(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.623 ENERGY OUT = 17.780(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 17.78000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 17.780 ENERGY OUT = 12.555(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.723 ENERGY OUT = 18.006(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.00600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 18.006 ENERGY OUT = 12.847(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.823 ENERGY OUT = 18.230(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.23000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 18.230 ENERGY OUT = 13.134(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 50.923 ENERGY OUT = 18.452(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.45200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 18.452 ENERGY OUT = 13.417(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.023 ENERGY OUT = 18.673(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.67300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 18.673 ENERGY OUT = 13.697(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.123 ENERGY OUT = 18.892(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 18.89200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 18.892 ENERGY OUT = 13.972(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.223 ENERGY OUT = 19.109(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.10900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 19.109 ENERGY OUT = 14.244(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.323 ENERGY OUT = 19.325(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.32500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 19.325 ENERGY OUT = 14.512(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.423 ENERGY OUT = 19.539(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.53900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 19.539 ENERGY OUT = 14.777(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.523 ENERGY OUT = 19.752(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.75200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 19.752 ENERGY OUT = 15.040(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.623 ENERGY OUT = 19.964(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 19.96400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 19.964 ENERGY OUT = 15.299(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.723 ENERGY OUT = 20.174(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.17400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 20.174 ENERGY OUT = 15.556(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.823 ENERGY OUT = 20.383(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.38300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 20.383 ENERGY OUT = 15.810(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 51.923 ENERGY OUT = 20.590(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.59000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 20.590 ENERGY OUT = 16.060(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.023 ENERGY OUT = 20.797(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 20.79700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 20.797 ENERGY OUT = 16.309(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.123 ENERGY OUT = 21.002(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.00200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 21.002 ENERGY OUT = 16.555(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.223 ENERGY OUT = 21.206(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.20600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 21.206 ENERGY OUT = 16.799(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.323 ENERGY OUT = 21.408(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.40800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 21.408 ENERGY OUT = 17.040(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.423 ENERGY OUT = 21.609(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.60900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 21.609 ENERGY OUT = 17.279(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.523 ENERGY OUT = 21.810(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 21.81000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 21.810 ENERGY OUT = 17.517(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.623 ENERGY OUT = 22.009(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.00900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 22.009 ENERGY OUT = 17.752(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.723 ENERGY OUT = 22.207(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.20700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 22.207 ENERGY OUT = 17.985(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.823 ENERGY OUT = 22.404(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.40400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 22.404 ENERGY OUT = 18.216(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 52.923 ENERGY OUT = 22.601(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.60100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 22.601 ENERGY OUT = 18.446(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.023 ENERGY OUT = 22.796(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.79600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 22.796 ENERGY OUT = 18.674(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.123 ENERGY OUT = 22.990(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 22.99000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 22.990 ENERGY OUT = 18.899(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.223 ENERGY OUT = 23.183(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.18300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 23.183 ENERGY OUT = 19.123(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.323 ENERGY OUT = 23.375(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.37500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 23.375 ENERGY OUT = 19.345(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.423 ENERGY OUT = 23.566(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.56600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 23.566 ENERGY OUT = 19.566(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.523 ENERGY OUT = 23.757(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.75700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 23.757 ENERGY OUT = 19.786(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.623 ENERGY OUT = 23.946(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 23.94600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 23.946 ENERGY OUT = 20.003(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.723 ENERGY OUT = 24.135(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.13500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 24.135 ENERGY OUT = 20.220(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.823 ENERGY OUT = 24.323(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 24.323 ENERGY OUT = 20.435(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 53.923 ENERGY OUT = 24.510(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.51000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 24.510 ENERGY OUT = 20.649(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.023 ENERGY OUT = 24.696(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.69600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 24.696 ENERGY OUT = 20.861(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.123 ENERGY OUT = 24.881(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 24.88100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 24.881 ENERGY OUT = 21.071(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.223 ENERGY OUT = 25.066(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.06600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 25.066 ENERGY OUT = 21.281(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.323 ENERGY OUT = 25.250(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.25000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 25.250 ENERGY OUT = 21.490(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.423 ENERGY OUT = 25.433(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.43300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 25.433 ENERGY OUT = 21.697(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.523 ENERGY OUT = 25.615(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.61500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 25.615 ENERGY OUT = 21.902(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.623 ENERGY OUT = 25.796(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.79600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 25.796 ENERGY OUT = 22.107(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.723 ENERGY OUT = 25.977(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 25.97700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 25.977 ENERGY OUT = 22.310(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.823 ENERGY OUT = 26.157(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.15700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 26.157 ENERGY OUT = 22.513(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 54.923 ENERGY OUT = 26.337(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.33700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 26.337 ENERGY OUT = 22.715(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.023 ENERGY OUT = 26.516(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.51600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 26.516 ENERGY OUT = 22.915(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.123 ENERGY OUT = 26.694(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.69400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 26.694 ENERGY OUT = 23.114(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.223 ENERGY OUT = 26.871(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 26.87100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 26.871 ENERGY OUT = 23.312(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.323 ENERGY OUT = 27.048(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.04800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 27.048 ENERGY OUT = 23.510(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.423 ENERGY OUT = 27.224(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.22400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 27.224 ENERGY OUT = 23.706(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.523 ENERGY OUT = 27.399(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.39900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 27.399 ENERGY OUT = 23.900(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.623 ENERGY OUT = 27.574(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.57400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 27.574 ENERGY OUT = 24.095(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.723 ENERGY OUT = 27.748(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.74800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 27.748 ENERGY OUT = 24.288(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.823 ENERGY OUT = 27.922(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 27.92200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 27.922 ENERGY OUT = 24.481(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 55.923 ENERGY OUT = 28.095(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.09500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 28.095 ENERGY OUT = 24.672(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.023 ENERGY OUT = 28.268(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.26800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 28.268 ENERGY OUT = 24.863(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.123 ENERGY OUT = 28.439(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.43900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 28.439 ENERGY OUT = 25.052(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.223 ENERGY OUT = 28.611(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.61100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 28.611 ENERGY OUT = 25.242(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.323 ENERGY OUT = 28.782(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.78200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 28.782 ENERGY OUT = 25.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.423 ENERGY OUT = 28.952(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 28.95200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 28.952 ENERGY OUT = 25.618(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.523 ENERGY OUT = 29.122(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.12200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 29.122 ENERGY OUT = 25.804(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.623 ENERGY OUT = 29.291(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.29100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 29.291 ENERGY OUT = 25.990(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.723 ENERGY OUT = 29.460(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.46000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 29.460 ENERGY OUT = 26.175(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.823 ENERGY OUT = 29.628(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.62800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 29.628 ENERGY OUT = 26.360(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 56.923 ENERGY OUT = 29.795(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.79500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 29.795 ENERGY OUT = 26.542(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.023 ENERGY OUT = 29.963(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 29.96300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 29.963 ENERGY OUT = 26.726(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.123 ENERGY OUT = 30.129(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.12900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 30.129 ENERGY OUT = 26.908(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.223 ENERGY OUT = 30.296(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.29600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 30.296 ENERGY OUT = 27.090(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.323 ENERGY OUT = 30.461(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.46100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 30.461 ENERGY OUT = 27.270(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.423 ENERGY OUT = 30.627(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.62700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 30.627 ENERGY OUT = 27.451(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.523 ENERGY OUT = 30.791(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.79100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 30.791 ENERGY OUT = 27.629(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.623 ENERGY OUT = 30.956(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 30.95600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 30.956 ENERGY OUT = 27.809(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.723 ENERGY OUT = 31.119(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.11900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 31.119 ENERGY OUT = 27.986(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.823 ENERGY OUT = 31.283(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.28300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 31.283 ENERGY OUT = 28.164(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 57.923 ENERGY OUT = 31.446(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.44600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 31.446 ENERGY OUT = 28.341(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.023 ENERGY OUT = 31.608(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.60800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 31.608 ENERGY OUT = 28.517(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.123 ENERGY OUT = 31.770(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.77000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 31.770 ENERGY OUT = 28.692(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.223 ENERGY OUT = 31.932(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 31.93200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 31.932 ENERGY OUT = 28.868(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.323 ENERGY OUT = 32.093(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.09300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 32.093 ENERGY OUT = 29.042(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.423 ENERGY OUT = 32.254(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.25400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 32.254 ENERGY OUT = 29.216(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.523 ENERGY OUT = 32.415(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.41500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 32.415 ENERGY OUT = 29.390(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.623 ENERGY OUT = 32.575(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.57500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 32.575 ENERGY OUT = 29.562(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.723 ENERGY OUT = 32.735(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.73500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 32.735 ENERGY OUT = 29.735(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.823 ENERGY OUT = 32.894(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 32.89400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 32.894 ENERGY OUT = 29.906(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 58.923 ENERGY OUT = 33.053(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.05300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 33.053 ENERGY OUT = 30.078(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.023 ENERGY OUT = 33.211(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.21100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 33.211 ENERGY OUT = 30.248(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.123 ENERGY OUT = 33.369(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.36900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 33.369 ENERGY OUT = 30.418(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.223 ENERGY OUT = 33.527(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.52700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 33.527 ENERGY OUT = 30.588(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.323 ENERGY OUT = 33.684(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.68400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 33.684 ENERGY OUT = 30.756(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.423 ENERGY OUT = 33.842(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.84200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 33.842 ENERGY OUT = 30.926(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.523 ENERGY OUT = 33.998(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 33.99800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 33.998 ENERGY OUT = 31.093(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.623 ENERGY OUT = 34.154(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.15400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 34.154 ENERGY OUT = 31.261(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.723 ENERGY OUT = 34.310(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.31000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 34.310 ENERGY OUT = 31.428(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.823 ENERGY OUT = 34.466(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.46600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 34.466 ENERGY OUT = 31.595(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 59.923 ENERGY OUT = 34.621(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.62100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 34.621 ENERGY OUT = 31.761(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.023 ENERGY OUT = 34.776(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.77600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 34.776 ENERGY OUT = 31.927(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.123 ENERGY OUT = 34.931(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 34.93100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 34.931 ENERGY OUT = 32.093(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.223 ENERGY OUT = 35.085(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.08500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 35.085 ENERGY OUT = 32.257(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.323 ENERGY OUT = 35.239(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.23900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 35.239 ENERGY OUT = 32.422(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.423 ENERGY OUT = 35.393(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.39300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 35.393 ENERGY OUT = 32.586(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.523 ENERGY OUT = 35.546(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.54600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 35.546 ENERGY OUT = 32.749(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.623 ENERGY OUT = 35.699(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.69900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 35.699 ENERGY OUT = 32.912(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.723 ENERGY OUT = 35.852(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 35.85200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 35.852 ENERGY OUT = 33.076(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.823 ENERGY OUT = 36.004(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.00400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 36.004 ENERGY OUT = 33.238(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 60.923 ENERGY OUT = 36.156(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.15600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 36.156 ENERGY OUT = 33.399(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.023 ENERGY OUT = 36.308(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.30800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 36.308 ENERGY OUT = 33.561(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.123 ENERGY OUT = 36.459(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.45900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 36.459 ENERGY OUT = 33.722(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.223 ENERGY OUT = 36.610(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.61000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 36.610 ENERGY OUT = 33.882(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.323 ENERGY OUT = 36.761(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.76100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 36.761 ENERGY OUT = 34.043(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.423 ENERGY OUT = 36.912(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 36.91200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 36.912 ENERGY OUT = 34.203(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.523 ENERGY OUT = 37.062(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.06200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 37.062 ENERGY OUT = 34.363(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.623 ENERGY OUT = 37.212(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.21200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 37.212 ENERGY OUT = 34.522(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.723 ENERGY OUT = 37.362(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.36200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 37.362 ENERGY OUT = 34.681(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.823 ENERGY OUT = 37.511(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.51100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 37.511 ENERGY OUT = 34.839(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 61.923 ENERGY OUT = 37.661(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.66100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 37.661 ENERGY OUT = 34.998(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.023 ENERGY OUT = 37.810(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.81000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 37.810 ENERGY OUT = 35.156(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.123 ENERGY OUT = 37.958(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 37.95800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 37.958 ENERGY OUT = 35.313(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.223 ENERGY OUT = 38.106(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.10600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 38.106 ENERGY OUT = 35.469(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.323 ENERGY OUT = 38.255(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.25500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 38.255 ENERGY OUT = 35.627(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.423 ENERGY OUT = 38.402(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.40200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 38.402 ENERGY OUT = 35.782(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.523 ENERGY OUT = 38.550(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.55000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 38.550 ENERGY OUT = 35.939(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.623 ENERGY OUT = 38.697(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.69700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 38.697 ENERGY OUT = 36.094(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.723 ENERGY OUT = 38.844(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.84400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 38.844 ENERGY OUT = 36.250(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.823 ENERGY OUT = 38.991(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 38.99100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 38.991 ENERGY OUT = 36.405(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 62.923 ENERGY OUT = 39.138(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.13800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 39.138 ENERGY OUT = 36.560(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.023 ENERGY OUT = 39.284(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.28400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 39.284 ENERGY OUT = 36.714(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.123 ENERGY OUT = 39.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.43000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 39.430 ENERGY OUT = 36.868(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.223 ENERGY OUT = 39.576(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.57600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 39.576 ENERGY OUT = 37.022(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.323 ENERGY OUT = 39.722(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.72200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 39.722 ENERGY OUT = 37.176(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.423 ENERGY OUT = 39.867(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 39.86700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 39.867 ENERGY OUT = 37.329(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.523 ENERGY OUT = 40.012(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.01200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 40.012 ENERGY OUT = 37.482(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.623 ENERGY OUT = 40.157(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.15700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 40.157 ENERGY OUT = 37.634(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.723 ENERGY OUT = 40.302(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.30200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 40.302 ENERGY OUT = 37.787(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.823 ENERGY OUT = 40.446(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.44600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 40.446 ENERGY OUT = 37.938(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 63.923 ENERGY OUT = 40.590(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.59000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 40.590 ENERGY OUT = 38.090(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.023 ENERGY OUT = 40.734(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.73400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 40.734 ENERGY OUT = 38.241(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.123 ENERGY OUT = 40.878(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 40.87800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 40.878 ENERGY OUT = 38.393(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.223 ENERGY OUT = 41.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.02100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 41.021 ENERGY OUT = 38.543(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.323 ENERGY OUT = 41.165(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.16500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 41.165 ENERGY OUT = 38.694(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.423 ENERGY OUT = 41.308(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.30800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 41.308 ENERGY OUT = 38.845(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.523 ENERGY OUT = 41.451(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.45100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 41.451 ENERGY OUT = 38.995(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.623 ENERGY OUT = 41.594(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.59400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 41.594 ENERGY OUT = 39.145(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.723 ENERGY OUT = 41.736(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.73600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 41.736 ENERGY OUT = 39.294(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.823 ENERGY OUT = 41.878(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 41.87800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 41.878 ENERGY OUT = 39.443(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 64.923 ENERGY OUT = 42.020(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.02000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 42.020 ENERGY OUT = 39.592(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.023 ENERGY OUT = 42.162(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.16200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 42.162 ENERGY OUT = 39.741(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.123 ENERGY OUT = 42.304(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.30400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 42.304 ENERGY OUT = 39.889(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.223 ENERGY OUT = 42.445(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.44500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 42.445 ENERGY OUT = 40.037(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.323 ENERGY OUT = 42.587(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.58700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 42.587 ENERGY OUT = 40.186(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.423 ENERGY OUT = 42.728(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.72800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 42.728 ENERGY OUT = 40.333(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.523 ENERGY OUT = 42.869(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 42.86900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 42.869 ENERGY OUT = 40.481(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.623 ENERGY OUT = 43.009(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.00900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 43.009 ENERGY OUT = 40.628(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.723 ENERGY OUT = 43.150(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.15000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 43.150 ENERGY OUT = 40.775(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.823 ENERGY OUT = 43.290(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.29000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 43.290 ENERGY OUT = 40.922(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 65.923 ENERGY OUT = 43.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.43000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 43.430 ENERGY OUT = 41.068(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.023 ENERGY OUT = 43.570(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.57000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 43.570 ENERGY OUT = 41.214(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.123 ENERGY OUT = 43.710(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.71000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 43.710 ENERGY OUT = 41.361(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.223 ENERGY OUT = 43.849(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.84900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 43.849 ENERGY OUT = 41.506(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.323 ENERGY OUT = 43.989(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 43.98900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 43.989 ENERGY OUT = 41.652(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.423 ENERGY OUT = 44.128(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.12800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 44.128 ENERGY OUT = 41.797(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.523 ENERGY OUT = 44.267(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.26700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 44.267 ENERGY OUT = 41.942(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.623 ENERGY OUT = 44.406(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.40600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 44.406 ENERGY OUT = 42.088(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.723 ENERGY OUT = 44.544(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.54400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 44.544 ENERGY OUT = 42.232(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.823 ENERGY OUT = 44.683(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.68300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 44.683 ENERGY OUT = 42.377(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 66.923 ENERGY OUT = 44.821(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.82100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 44.821 ENERGY OUT = 42.521(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.023 ENERGY OUT = 44.959(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 44.95900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 44.959 ENERGY OUT = 42.664(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.123 ENERGY OUT = 45.097(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.09700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 45.097 ENERGY OUT = 42.808(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.223 ENERGY OUT = 45.235(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.23500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 45.235 ENERGY OUT = 42.952(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.323 ENERGY OUT = 45.372(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.37200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 45.372 ENERGY OUT = 43.095(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.423 ENERGY OUT = 45.510(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.51000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 45.510 ENERGY OUT = 43.239(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.523 ENERGY OUT = 45.647(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.64700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 45.647 ENERGY OUT = 43.381(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.623 ENERGY OUT = 45.784(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.78400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 45.784 ENERGY OUT = 43.524(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.723 ENERGY OUT = 45.921(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 45.92100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 45.921 ENERGY OUT = 43.667(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.823 ENERGY OUT = 46.058(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.05800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 46.058 ENERGY OUT = 43.809(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 67.923 ENERGY OUT = 46.195(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.19500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 46.195 ENERGY OUT = 43.952(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.023 ENERGY OUT = 46.331(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.33100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 46.331 ENERGY OUT = 44.093(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.123 ENERGY OUT = 46.467(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.46700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 46.467 ENERGY OUT = 44.235(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.223 ENERGY OUT = 46.604(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.60400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 46.604 ENERGY OUT = 44.377(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.323 ENERGY OUT = 46.740(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.74000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 46.740 ENERGY OUT = 44.519(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.423 ENERGY OUT = 46.875(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 46.87500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 46.875 ENERGY OUT = 44.659(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.523 ENERGY OUT = 47.011(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.01100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 47.011 ENERGY OUT = 44.801(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.623 ENERGY OUT = 47.146(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.14600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 47.146 ENERGY OUT = 44.941(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.723 ENERGY OUT = 47.282(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.28200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 47.282 ENERGY OUT = 45.082(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.823 ENERGY OUT = 47.417(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.41700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 47.417 ENERGY OUT = 45.222(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 68.923 ENERGY OUT = 47.552(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.55200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 47.552 ENERGY OUT = 45.363(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.023 ENERGY OUT = 47.687(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.68700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 47.687 ENERGY OUT = 45.503(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.123 ENERGY OUT = 47.822(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.82200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 47.822 ENERGY OUT = 45.643(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.223 ENERGY OUT = 47.956(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 47.95600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 47.956 ENERGY OUT = 45.782(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.323 ENERGY OUT = 48.091(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.09100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 48.091 ENERGY OUT = 45.922(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.423 ENERGY OUT = 48.225(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.22500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 48.225 ENERGY OUT = 46.061(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.523 ENERGY OUT = 48.360(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.36000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 48.360 ENERGY OUT = 46.201(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.623 ENERGY OUT = 48.494(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.49400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 48.494 ENERGY OUT = 46.340(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.723 ENERGY OUT = 48.628(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.62800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 48.628 ENERGY OUT = 46.479(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.823 ENERGY OUT = 48.761(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.76100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 48.761 ENERGY OUT = 46.617(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 69.923 ENERGY OUT = 48.895(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 48.89500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 48.895 ENERGY OUT = 46.756(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.023 ENERGY OUT = 49.029(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.02900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 49.029 ENERGY OUT = 46.895(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.123 ENERGY OUT = 49.162(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.16200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 49.162 ENERGY OUT = 47.033(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.223 ENERGY OUT = 49.295(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.29500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 49.295 ENERGY OUT = 47.170(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.323 ENERGY OUT = 49.428(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.42800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 49.428 ENERGY OUT = 47.308(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.423 ENERGY OUT = 49.561(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.56100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 49.561 ENERGY OUT = 47.446(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.523 ENERGY OUT = 49.694(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.69400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 49.694 ENERGY OUT = 47.584(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.623 ENERGY OUT = 49.827(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.82700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 49.827 ENERGY OUT = 47.721(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.723 ENERGY OUT = 49.959(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 49.95900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 49.959 ENERGY OUT = 47.858(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.823 ENERGY OUT = 50.092(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.09200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 50.092 ENERGY OUT = 47.996(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 70.923 ENERGY OUT = 50.224(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.22400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 50.224 ENERGY OUT = 48.132(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 71.023 ENERGY OUT = 50.356(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.35600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 50.356 ENERGY OUT = 48.269(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 71.123 ENERGY OUT = 50.488(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.48800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 50.488 ENERGY OUT = 48.405(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 71.223 ENERGY OUT = 50.620(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.62000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 50.620 ENERGY OUT = 48.542(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 71.323 ENERGY OUT = 50.752(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.75200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 50.752 ENERGY OUT = 48.679(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 71.423 ENERGY OUT = 50.884(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 50.88400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 50.884 ENERGY OUT = 48.815(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 71.523 ENERGY OUT = 51.016(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.01600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 51.016 ENERGY OUT = 48.951(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 71.623 ENERGY OUT = 51.147(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.14700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 51.147 ENERGY OUT = 49.087(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-2048 STEPS ENERGY IN = 71.723 ENERGY OUT = 51.278(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.27800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 51.278 ENERGY OUT = 49.222(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 71.823 ENERGY OUT = 51.411(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.41100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 51.411 ENERGY OUT = 49.360(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 71.923 ENERGY OUT = 51.542(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.54200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 51.542 ENERGY OUT = 49.495(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.023 ENERGY OUT = 51.673(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.67300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 51.673 ENERGY OUT = 49.630(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.123 ENERGY OUT = 51.804(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.80400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 51.804 ENERGY OUT = 49.766(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.223 ENERGY OUT = 51.935(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 51.93500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 51.935 ENERGY OUT = 49.901(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.323 ENERGY OUT = 52.065(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.06500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 52.065 ENERGY OUT = 50.035(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.423 ENERGY OUT = 52.196(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.19600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 52.196 ENERGY OUT = 50.170(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.523 ENERGY OUT = 52.326(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.32600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 52.326 ENERGY OUT = 50.305(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.623 ENERGY OUT = 52.456(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.45600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 52.456 ENERGY OUT = 50.439(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.723 ENERGY OUT = 52.586(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.58600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 52.586 ENERGY OUT = 50.573(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.823 ENERGY OUT = 52.717(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.71700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 52.717 ENERGY OUT = 50.708(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 72.923 ENERGY OUT = 52.846(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.84600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 52.846 ENERGY OUT = 50.841(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.023 ENERGY OUT = 52.976(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 52.97600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 52.976 ENERGY OUT = 50.975(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.123 ENERGY OUT = 53.106(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.10600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 53.106 ENERGY OUT = 51.109(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.223 ENERGY OUT = 53.236(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.23600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 53.236 ENERGY OUT = 51.243(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.323 ENERGY OUT = 53.365(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.36500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 53.365 ENERGY OUT = 51.377(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.423 ENERGY OUT = 53.494(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.49400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 53.494 ENERGY OUT = 51.510(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.523 ENERGY OUT = 53.624(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.62400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 53.624 ENERGY OUT = 51.644(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.623 ENERGY OUT = 53.753(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.75300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 53.753 ENERGY OUT = 51.777(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.723 ENERGY OUT = 53.882(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 53.88200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 53.882 ENERGY OUT = 51.909(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.823 ENERGY OUT = 54.011(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.01100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 54.011 ENERGY OUT = 52.042(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 73.923 ENERGY OUT = 54.140(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.14000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 54.140 ENERGY OUT = 52.175(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.023 ENERGY OUT = 54.268(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.26800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 54.268 ENERGY OUT = 52.307(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.123 ENERGY OUT = 54.397(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.39700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 54.397 ENERGY OUT = 52.440(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.223 ENERGY OUT = 54.525(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.52500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 54.525 ENERGY OUT = 52.572(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.323 ENERGY OUT = 54.654(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.65400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 54.654 ENERGY OUT = 52.705(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.423 ENERGY OUT = 54.782(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.78200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 54.782 ENERGY OUT = 52.837(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.523 ENERGY OUT = 54.910(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 54.91000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 54.910 ENERGY OUT = 52.968(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.623 ENERGY OUT = 55.039(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.03900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 55.039 ENERGY OUT = 53.101(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.723 ENERGY OUT = 55.166(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.16600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 55.166 ENERGY OUT = 53.232(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.823 ENERGY OUT = 55.294(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.29400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 55.294 ENERGY OUT = 53.364(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 74.923 ENERGY OUT = 55.422(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.42200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 55.422 ENERGY OUT = 53.495(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.023 ENERGY OUT = 55.550(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.55000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 55.550 ENERGY OUT = 53.627(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.123 ENERGY OUT = 55.678(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.67800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 55.678 ENERGY OUT = 53.759(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.223 ENERGY OUT = 55.805(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.80500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 55.805 ENERGY OUT = 53.889(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.323 ENERGY OUT = 55.933(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 55.93300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 55.933 ENERGY OUT = 54.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.423 ENERGY OUT = 56.060(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.06000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 56.060 ENERGY OUT = 54.152(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.523 ENERGY OUT = 56.187(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.18700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 56.187 ENERGY OUT = 54.282(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.623 ENERGY OUT = 56.314(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.31400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 56.314 ENERGY OUT = 54.413(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.723 ENERGY OUT = 56.441(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.44100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 56.441 ENERGY OUT = 54.543(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.823 ENERGY OUT = 56.568(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.56800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 56.568 ENERGY OUT = 54.674(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 75.923 ENERGY OUT = 56.695(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.69500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 56.695 ENERGY OUT = 54.804(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.023 ENERGY OUT = 56.822(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.82200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 56.822 ENERGY OUT = 54.935(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.123 ENERGY OUT = 56.948(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 56.94800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 56.948 ENERGY OUT = 55.064(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.223 ENERGY OUT = 57.075(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.07500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 57.075 ENERGY OUT = 55.195(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.323 ENERGY OUT = 57.202(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.20200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 57.202 ENERGY OUT = 55.325(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.423 ENERGY OUT = 57.328(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.32800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 57.328 ENERGY OUT = 55.455(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.523 ENERGY OUT = 57.454(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.45400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 57.454 ENERGY OUT = 55.584(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.623 ENERGY OUT = 57.581(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.58100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 57.581 ENERGY OUT = 55.715(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.723 ENERGY OUT = 57.707(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.70700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 57.707 ENERGY OUT = 55.844(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.823 ENERGY OUT = 57.833(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.83300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 57.833 ENERGY OUT = 55.973(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 76.923 ENERGY OUT = 57.959(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 57.95900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 57.959 ENERGY OUT = 56.103(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.023 ENERGY OUT = 58.085(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.08500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 58.085 ENERGY OUT = 56.232(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.123 ENERGY OUT = 58.210(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.21000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 58.210 ENERGY OUT = 56.361(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.223 ENERGY OUT = 58.336(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.33600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 58.336 ENERGY OUT = 56.490(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.323 ENERGY OUT = 58.462(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.46200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 58.462 ENERGY OUT = 56.619(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.423 ENERGY OUT = 58.587(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.58700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 58.587 ENERGY OUT = 56.747(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.523 ENERGY OUT = 58.713(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.71300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 58.713 ENERGY OUT = 56.877(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.623 ENERGY OUT = 58.838(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.83800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 58.838 ENERGY OUT = 57.005(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.723 ENERGY OUT = 58.963(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 58.96300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 58.963 ENERGY OUT = 57.133(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.823 ENERGY OUT = 59.088(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.08800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 59.088 ENERGY OUT = 57.261(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 77.923 ENERGY OUT = 59.214(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.21400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 59.214 ENERGY OUT = 57.391(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.023 ENERGY OUT = 59.339(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.33900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 59.339 ENERGY OUT = 57.519(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.123 ENERGY OUT = 59.464(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.46400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 59.464 ENERGY OUT = 57.647(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.223 ENERGY OUT = 59.588(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.58800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 59.588 ENERGY OUT = 57.774(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.323 ENERGY OUT = 59.713(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.71300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 59.713 ENERGY OUT = 57.902(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.423 ENERGY OUT = 59.838(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.83800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 59.838 ENERGY OUT = 58.031(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.523 ENERGY OUT = 59.962(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 59.96200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 59.962 ENERGY OUT = 58.158(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.623 ENERGY OUT = 60.087(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.08700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 60.087 ENERGY OUT = 58.286(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.723 ENERGY OUT = 60.211(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.21100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 60.211 ENERGY OUT = 58.413(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.823 ENERGY OUT = 60.336(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.33600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 60.336 ENERGY OUT = 58.541(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 78.923 ENERGY OUT = 60.460(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.46000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 60.460 ENERGY OUT = 58.668(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.023 ENERGY OUT = 60.584(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.58400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 60.584 ENERGY OUT = 58.795(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.123 ENERGY OUT = 60.709(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.70900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 60.709 ENERGY OUT = 58.923(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.223 ENERGY OUT = 60.833(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.83300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 60.833 ENERGY OUT = 59.050(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.323 ENERGY OUT = 60.957(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 60.95700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 60.957 ENERGY OUT = 59.177(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.423 ENERGY OUT = 61.080(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.08000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 61.080 ENERGY OUT = 59.303(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.523 ENERGY OUT = 61.204(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.20400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 61.204 ENERGY OUT = 59.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.623 ENERGY OUT = 61.328(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.32800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 61.328 ENERGY OUT = 59.557(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.723 ENERGY OUT = 61.452(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.45200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 61.452 ENERGY OUT = 59.684(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.823 ENERGY OUT = 61.575(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.57500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 61.575 ENERGY OUT = 59.810(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 79.923 ENERGY OUT = 61.699(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.69900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 61.699 ENERGY OUT = 59.937(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.023 ENERGY OUT = 61.822(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.82200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 61.822 ENERGY OUT = 60.063(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.123 ENERGY OUT = 61.946(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 61.94600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 61.946 ENERGY OUT = 60.190(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.223 ENERGY OUT = 62.069(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.06900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 62.069 ENERGY OUT = 60.316(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.323 ENERGY OUT = 62.192(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.19200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 62.192 ENERGY OUT = 60.442(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.423 ENERGY OUT = 62.316(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.31600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 62.316 ENERGY OUT = 60.569(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.523 ENERGY OUT = 62.439(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.43900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 62.439 ENERGY OUT = 60.694(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.623 ENERGY OUT = 62.562(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.56200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 62.562 ENERGY OUT = 60.820(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.723 ENERGY OUT = 62.685(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.68500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 62.685 ENERGY OUT = 60.946(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.823 ENERGY OUT = 62.808(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.80800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 62.808 ENERGY OUT = 61.072(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 80.923 ENERGY OUT = 62.930(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 62.93000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 62.930 ENERGY OUT = 61.197(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.023 ENERGY OUT = 63.053(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.05300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 63.053 ENERGY OUT = 61.323(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.123 ENERGY OUT = 63.176(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.17600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 63.176 ENERGY OUT = 61.448(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.223 ENERGY OUT = 63.298(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.29800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 63.298 ENERGY OUT = 61.573(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.323 ENERGY OUT = 63.421(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.42100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 63.421 ENERGY OUT = 61.699(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.423 ENERGY OUT = 63.543(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.54300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 63.543 ENERGY OUT = 61.824(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.523 ENERGY OUT = 63.666(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.66600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 63.666 ENERGY OUT = 61.949(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.623 ENERGY OUT = 63.788(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.78800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 63.788 ENERGY OUT = 62.074(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.723 ENERGY OUT = 63.910(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 63.91000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 63.910 ENERGY OUT = 62.199(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.823 ENERGY OUT = 64.032(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.03200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 64.032 ENERGY OUT = 62.324(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 81.923 ENERGY OUT = 64.155(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.15500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 64.155 ENERGY OUT = 62.449(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.023 ENERGY OUT = 64.277(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.27700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 64.277 ENERGY OUT = 62.574(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.123 ENERGY OUT = 64.399(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.39900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 64.399 ENERGY OUT = 62.699(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.223 ENERGY OUT = 64.521(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.52100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 64.521 ENERGY OUT = 62.823(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.323 ENERGY OUT = 64.643(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.64300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 64.643 ENERGY OUT = 62.948(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.423 ENERGY OUT = 64.764(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.76400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 64.764 ENERGY OUT = 63.072(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.523 ENERGY OUT = 64.886(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 64.88600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 64.886 ENERGY OUT = 63.196(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.623 ENERGY OUT = 65.008(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.00800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.008 ENERGY OUT = 63.321(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.723 ENERGY OUT = 65.130(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.13000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.130 ENERGY OUT = 63.446(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.823 ENERGY OUT = 65.251(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.25100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.251 ENERGY OUT = 63.569(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 82.923 ENERGY OUT = 65.372(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.37200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.372 ENERGY OUT = 63.693(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.023 ENERGY OUT = 65.494(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.49400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.494 ENERGY OUT = 63.817(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.123 ENERGY OUT = 65.615(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.61500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.615 ENERGY OUT = 63.941(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.223 ENERGY OUT = 65.737(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.73700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.737 ENERGY OUT = 64.066(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.323 ENERGY OUT = 65.858(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.85800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.858 ENERGY OUT = 64.189(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.423 ENERGY OUT = 65.979(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 65.97900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 65.979 ENERGY OUT = 64.313(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.523 ENERGY OUT = 66.100(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.10000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 66.100 ENERGY OUT = 64.436(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.623 ENERGY OUT = 66.221(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.22100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 66.221 ENERGY OUT = 64.560(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.723 ENERGY OUT = 66.342(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.34200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 66.342 ENERGY OUT = 64.683(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.823 ENERGY OUT = 66.463(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.46300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 66.463 ENERGY OUT = 64.807(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 83.923 ENERGY OUT = 66.584(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.58400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 66.584 ENERGY OUT = 64.930(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.023 ENERGY OUT = 66.705(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.70500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 66.705 ENERGY OUT = 65.054(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.123 ENERGY OUT = 66.826(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.82600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 66.826 ENERGY OUT = 65.177(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.223 ENERGY OUT = 66.946(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 66.94600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 66.946 ENERGY OUT = 65.300(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.323 ENERGY OUT = 67.067(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.06700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 67.067 ENERGY OUT = 65.423(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.423 ENERGY OUT = 67.187(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.18700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 67.187 ENERGY OUT = 65.546(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.523 ENERGY OUT = 67.308(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.30800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 67.308 ENERGY OUT = 65.669(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.623 ENERGY OUT = 67.428(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.42800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 67.428 ENERGY OUT = 65.792(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.723 ENERGY OUT = 67.549(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.54900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 67.549 ENERGY OUT = 65.915(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.823 ENERGY OUT = 67.669(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.66900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 67.669 ENERGY OUT = 66.037(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 84.923 ENERGY OUT = 67.789(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.78900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 67.789 ENERGY OUT = 66.160(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.023 ENERGY OUT = 67.910(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 67.91000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 67.910 ENERGY OUT = 66.283(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.123 ENERGY OUT = 68.030(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.03000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.030 ENERGY OUT = 66.406(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.223 ENERGY OUT = 68.150(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.15000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.150 ENERGY OUT = 66.528(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.323 ENERGY OUT = 68.270(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.27000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.270 ENERGY OUT = 66.650(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.423 ENERGY OUT = 68.390(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.39000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.390 ENERGY OUT = 66.773(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.523 ENERGY OUT = 68.510(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.51000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.510 ENERGY OUT = 66.895(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.623 ENERGY OUT = 68.630(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.63000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.630 ENERGY OUT = 67.017(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.723 ENERGY OUT = 68.750(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.75000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.750 ENERGY OUT = 67.140(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.823 ENERGY OUT = 68.869(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.86900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.869 ENERGY OUT = 67.261(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 85.923 ENERGY OUT = 68.989(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 68.98900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 68.989 ENERGY OUT = 67.383(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.023 ENERGY OUT = 69.109(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.10900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 69.109 ENERGY OUT = 67.506(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.123 ENERGY OUT = 69.228(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.22800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 69.228 ENERGY OUT = 67.627(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.223 ENERGY OUT = 69.348(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.34800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 69.348 ENERGY OUT = 67.749(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.323 ENERGY OUT = 69.467(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.46700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 69.467 ENERGY OUT = 67.871(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.423 ENERGY OUT = 69.587(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.58700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 69.587 ENERGY OUT = 67.993(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.523 ENERGY OUT = 69.706(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.70600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 69.706 ENERGY OUT = 68.114(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.623 ENERGY OUT = 69.825(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.82500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 69.825 ENERGY OUT = 68.235(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.723 ENERGY OUT = 69.945(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 69.94500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 69.945 ENERGY OUT = 68.358(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.823 ENERGY OUT = 70.064(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.06400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 70.064 ENERGY OUT = 68.479(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 86.923 ENERGY OUT = 70.183(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.18300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 70.183 ENERGY OUT = 68.600(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.023 ENERGY OUT = 70.302(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.30200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 70.302 ENERGY OUT = 68.721(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.123 ENERGY OUT = 70.421(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.42100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 70.421 ENERGY OUT = 68.843(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.223 ENERGY OUT = 70.540(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.54000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 70.540 ENERGY OUT = 68.964(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.323 ENERGY OUT = 70.659(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.65900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 70.659 ENERGY OUT = 69.085(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.423 ENERGY OUT = 70.778(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.77800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 70.778 ENERGY OUT = 69.206(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.523 ENERGY OUT = 70.897(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 70.89700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 70.897 ENERGY OUT = 69.327(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.623 ENERGY OUT = 71.016(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.01600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.016 ENERGY OUT = 69.449(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.723 ENERGY OUT = 71.135(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.13500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.135 ENERGY OUT = 69.570(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.823 ENERGY OUT = 71.253(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.25300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.253 ENERGY OUT = 69.690(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 87.923 ENERGY OUT = 71.372(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.37200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.372 ENERGY OUT = 69.811(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.023 ENERGY OUT = 71.491(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.49100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.491 ENERGY OUT = 69.932(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.123 ENERGY OUT = 71.609(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.60900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.609 ENERGY OUT = 70.052(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.223 ENERGY OUT = 71.728(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.72800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.728 ENERGY OUT = 70.174(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.323 ENERGY OUT = 71.846(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.84600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.846 ENERGY OUT = 70.294(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.423 ENERGY OUT = 71.965(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 71.96500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 71.965 ENERGY OUT = 70.415(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.523 ENERGY OUT = 72.083(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.08300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 72.083 ENERGY OUT = 70.535(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.623 ENERGY OUT = 72.201(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.20100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 72.201 ENERGY OUT = 70.655(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.723 ENERGY OUT = 72.320(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.32000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 72.320 ENERGY OUT = 70.776(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.823 ENERGY OUT = 72.438(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.43800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 72.438 ENERGY OUT = 70.896(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 88.923 ENERGY OUT = 72.556(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.55600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 72.556 ENERGY OUT = 71.016(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.023 ENERGY OUT = 72.674(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.67400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 72.674 ENERGY OUT = 71.136(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.123 ENERGY OUT = 72.792(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.79200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 72.792 ENERGY OUT = 71.257(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.223 ENERGY OUT = 72.910(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 72.91000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 72.910 ENERGY OUT = 71.377(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.323 ENERGY OUT = 73.028(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.02800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.028 ENERGY OUT = 71.497(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.423 ENERGY OUT = 73.146(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.14600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.146 ENERGY OUT = 71.617(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.523 ENERGY OUT = 73.264(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.26400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.264 ENERGY OUT = 71.737(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.623 ENERGY OUT = 73.382(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.38200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.382 ENERGY OUT = 71.857(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.723 ENERGY OUT = 73.500(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.50000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.500 ENERGY OUT = 71.977(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.823 ENERGY OUT = 73.618(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.61800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.618 ENERGY OUT = 72.097(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 89.923 ENERGY OUT = 73.735(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.73500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.735 ENERGY OUT = 72.216(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.023 ENERGY OUT = 73.853(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.85300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.853 ENERGY OUT = 72.336(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.123 ENERGY OUT = 73.970(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 73.97000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 73.970 ENERGY OUT = 72.455(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.223 ENERGY OUT = 74.088(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.08800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 74.088 ENERGY OUT = 72.575(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.323 ENERGY OUT = 74.206(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.20600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 74.206 ENERGY OUT = 72.695(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.423 ENERGY OUT = 74.323(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 74.323 ENERGY OUT = 72.814(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.523 ENERGY OUT = 74.441(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.44100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 74.441 ENERGY OUT = 72.934(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.623 ENERGY OUT = 74.558(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.55800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 74.558 ENERGY OUT = 73.053(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.723 ENERGY OUT = 74.675(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.67500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 74.675 ENERGY OUT = 73.172(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.823 ENERGY OUT = 74.792(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.79200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 74.792 ENERGY OUT = 73.291(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 90.923 ENERGY OUT = 74.910(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 74.91000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 74.910 ENERGY OUT = 73.411(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.023 ENERGY OUT = 75.027(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.02700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.027 ENERGY OUT = 73.530(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.123 ENERGY OUT = 75.144(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.14400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.144 ENERGY OUT = 73.649(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.223 ENERGY OUT = 75.261(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.26100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.261 ENERGY OUT = 73.768(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.323 ENERGY OUT = 75.378(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.37800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.378 ENERGY OUT = 73.887(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.423 ENERGY OUT = 75.496(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.49600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.496 ENERGY OUT = 74.006(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.523 ENERGY OUT = 75.613(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.61300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.613 ENERGY OUT = 74.125(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.623 ENERGY OUT = 75.729(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.72900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.729 ENERGY OUT = 74.243(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.723 ENERGY OUT = 75.846(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.84600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.846 ENERGY OUT = 74.362(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.823 ENERGY OUT = 75.963(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 75.96300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 75.963 ENERGY OUT = 74.481(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 91.923 ENERGY OUT = 76.080(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.08000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 76.080 ENERGY OUT = 74.600(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.023 ENERGY OUT = 76.197(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.19700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 76.197 ENERGY OUT = 74.719(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.123 ENERGY OUT = 76.314(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.31400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 76.314 ENERGY OUT = 74.838(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.223 ENERGY OUT = 76.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.43000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 76.430 ENERGY OUT = 74.956(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.323 ENERGY OUT = 76.547(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.54700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 76.547 ENERGY OUT = 75.075(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.423 ENERGY OUT = 76.663(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.66300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 76.663 ENERGY OUT = 75.192(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.523 ENERGY OUT = 76.780(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.78000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 76.780 ENERGY OUT = 75.311(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.623 ENERGY OUT = 76.897(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 76.89700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 76.897 ENERGY OUT = 75.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.723 ENERGY OUT = 77.013(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.01300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.013 ENERGY OUT = 75.548(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.823 ENERGY OUT = 77.130(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.13000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.130 ENERGY OUT = 75.667(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 92.923 ENERGY OUT = 77.246(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.24600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.246 ENERGY OUT = 75.785(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.023 ENERGY OUT = 77.362(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.36200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.362 ENERGY OUT = 75.902(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.123 ENERGY OUT = 77.479(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.47900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.479 ENERGY OUT = 76.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.223 ENERGY OUT = 77.595(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.59500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.595 ENERGY OUT = 76.139(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.323 ENERGY OUT = 77.711(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.71100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.711 ENERGY OUT = 76.257(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.423 ENERGY OUT = 77.828(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.82800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.828 ENERGY OUT = 76.376(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.523 ENERGY OUT = 77.944(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 77.94400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 77.944 ENERGY OUT = 76.494(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.623 ENERGY OUT = 78.060(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.06000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.060 ENERGY OUT = 76.611(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.723 ENERGY OUT = 78.176(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.17600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.176 ENERGY OUT = 76.729(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.823 ENERGY OUT = 78.292(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.29200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.292 ENERGY OUT = 76.847(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 93.923 ENERGY OUT = 78.408(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.40800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.408 ENERGY OUT = 76.965(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.023 ENERGY OUT = 78.524(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.52400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.524 ENERGY OUT = 77.083(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.123 ENERGY OUT = 78.640(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.64000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.640 ENERGY OUT = 77.200(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.223 ENERGY OUT = 78.756(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.75600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.756 ENERGY OUT = 77.318(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.323 ENERGY OUT = 78.872(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.87200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.872 ENERGY OUT = 77.436(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.423 ENERGY OUT = 78.988(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 78.98800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 78.988 ENERGY OUT = 77.554(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.523 ENERGY OUT = 79.103(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.10300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 79.103 ENERGY OUT = 77.670(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.623 ENERGY OUT = 79.219(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.21900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 79.219 ENERGY OUT = 77.788(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.723 ENERGY OUT = 79.335(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.33500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 79.335 ENERGY OUT = 77.906(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.823 ENERGY OUT = 79.451(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.45100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 79.451 ENERGY OUT = 78.024(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 94.923 ENERGY OUT = 79.566(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.56600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 79.566 ENERGY OUT = 78.140(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.023 ENERGY OUT = 79.682(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.68200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 79.682 ENERGY OUT = 78.258(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.123 ENERGY OUT = 79.797(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.79700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 79.797 ENERGY OUT = 78.375(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.223 ENERGY OUT = 79.913(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 79.91300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 79.913 ENERGY OUT = 78.492(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.323 ENERGY OUT = 80.028(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.02800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.028 ENERGY OUT = 78.609(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.423 ENERGY OUT = 80.144(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.14400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.144 ENERGY OUT = 78.727(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.523 ENERGY OUT = 80.259(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.25900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.259 ENERGY OUT = 78.843(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.623 ENERGY OUT = 80.375(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.37500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.375 ENERGY OUT = 78.961(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.723 ENERGY OUT = 80.490(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.49000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.490 ENERGY OUT = 79.078(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.823 ENERGY OUT = 80.605(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.60500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.605 ENERGY OUT = 79.195(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 95.923 ENERGY OUT = 80.721(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.72100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.721 ENERGY OUT = 79.312(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.023 ENERGY OUT = 80.836(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.83600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.836 ENERGY OUT = 79.429(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.123 ENERGY OUT = 80.951(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 80.95100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 80.951 ENERGY OUT = 79.546(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.223 ENERGY OUT = 81.066(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.06600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.066 ENERGY OUT = 79.662(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.323 ENERGY OUT = 81.181(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.18100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.181 ENERGY OUT = 79.779(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.423 ENERGY OUT = 81.296(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.29600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.296 ENERGY OUT = 79.896(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.523 ENERGY OUT = 81.411(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.41100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.411 ENERGY OUT = 80.012(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.623 ENERGY OUT = 81.527(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.52700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.527 ENERGY OUT = 80.130(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.723 ENERGY OUT = 81.642(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.64200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.642 ENERGY OUT = 80.247(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.823 ENERGY OUT = 81.756(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.75600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.756 ENERGY OUT = 80.362(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 96.923 ENERGY OUT = 81.871(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.87100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.871 ENERGY OUT = 80.479(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.023 ENERGY OUT = 81.986(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 81.98600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 81.986 ENERGY OUT = 80.595(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.123 ENERGY OUT = 82.101(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.10100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 82.101 ENERGY OUT = 80.712(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.223 ENERGY OUT = 82.216(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.21600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 82.216 ENERGY OUT = 80.829(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.323 ENERGY OUT = 82.331(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.33100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 82.331 ENERGY OUT = 80.945(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.423 ENERGY OUT = 82.445(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.44500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 82.445 ENERGY OUT = 81.061(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.523 ENERGY OUT = 82.560(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.56000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 82.560 ENERGY OUT = 81.177(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.623 ENERGY OUT = 82.675(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.67500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 82.675 ENERGY OUT = 81.294(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.723 ENERGY OUT = 82.790(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.79000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 82.790 ENERGY OUT = 81.411(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.823 ENERGY OUT = 82.904(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 82.90400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 82.904 ENERGY OUT = 81.526(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 97.923 ENERGY OUT = 83.019(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.01900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.019 ENERGY OUT = 81.643(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.023 ENERGY OUT = 83.133(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.13300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.133 ENERGY OUT = 81.758(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.123 ENERGY OUT = 83.248(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.24800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.248 ENERGY OUT = 81.875(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.223 ENERGY OUT = 83.362(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.36200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.362 ENERGY OUT = 81.991(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.323 ENERGY OUT = 83.477(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.47700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.477 ENERGY OUT = 82.107(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.423 ENERGY OUT = 83.591(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.59100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.591 ENERGY OUT = 82.223(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.523 ENERGY OUT = 83.706(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.70600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.706 ENERGY OUT = 82.339(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.623 ENERGY OUT = 83.820(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.82000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.820 ENERGY OUT = 82.455(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.723 ENERGY OUT = 83.934(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 83.93400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 83.934 ENERGY OUT = 82.570(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.823 ENERGY OUT = 84.049(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.04900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.049 ENERGY OUT = 82.687(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 98.923 ENERGY OUT = 84.163(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.16300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.163 ENERGY OUT = 82.802(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.023 ENERGY OUT = 84.277(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.27700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.277 ENERGY OUT = 82.918(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.123 ENERGY OUT = 84.391(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.39100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.391 ENERGY OUT = 83.033(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.223 ENERGY OUT = 84.505(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.50500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.505 ENERGY OUT = 83.149(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.323 ENERGY OUT = 84.620(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.62000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.620 ENERGY OUT = 83.266(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.423 ENERGY OUT = 84.734(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.73400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.734 ENERGY OUT = 83.381(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.523 ENERGY OUT = 84.848(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.84800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.848 ENERGY OUT = 83.497(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.623 ENERGY OUT = 84.962(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 84.96200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 84.962 ENERGY OUT = 83.612(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.723 ENERGY OUT = 85.076(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.07600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 85.076 ENERGY OUT = 83.728(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.823 ENERGY OUT = 85.190(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.19000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 85.190 ENERGY OUT = 83.843(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 99.923 ENERGY OUT = 85.304(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.30400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 85.304 ENERGY OUT = 83.959(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.023 ENERGY OUT = 85.418(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.41800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 85.418 ENERGY OUT = 84.074(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.123 ENERGY OUT = 85.531(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.53100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 85.531 ENERGY OUT = 84.189(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.223 ENERGY OUT = 85.645(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.64500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 128 STEPS ENERGY IN = 85.645 ENERGY OUT = 84.304(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.323 ENERGY OUT = 85.759(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.75900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 85.759 ENERGY OUT = 84.420(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.423 ENERGY OUT = 85.873(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.87300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 85.873 ENERGY OUT = 84.535(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.523 ENERGY OUT = 85.987(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 85.98700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 85.987 ENERGY OUT = 84.651(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.623 ENERGY OUT = 86.100(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.10000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 86.100 ENERGY OUT = 84.765(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.723 ENERGY OUT = 86.214(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.21400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 86.214 ENERGY OUT = 84.881(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.823 ENERGY OUT = 86.328(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.32800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 86.328 ENERGY OUT = 84.996(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 100.923 ENERGY OUT = 86.441(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.44100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 86.441 ENERGY OUT = 85.110(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.023 ENERGY OUT = 86.555(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.55500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 86.555 ENERGY OUT = 85.226(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.123 ENERGY OUT = 86.669(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.66900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 86.669 ENERGY OUT = 85.341(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.223 ENERGY OUT = 86.782(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.78200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 86.782 ENERGY OUT = 85.456(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.323 ENERGY OUT = 86.896(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 86.89600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 86.896 ENERGY OUT = 85.571(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.423 ENERGY OUT = 87.009(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.00900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.009 ENERGY OUT = 85.686(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.523 ENERGY OUT = 87.123(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.123 ENERGY OUT = 85.801(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.623 ENERGY OUT = 87.236(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.23600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.236 ENERGY OUT = 85.916(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.723 ENERGY OUT = 87.350(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.35000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.350 ENERGY OUT = 86.031(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.823 ENERGY OUT = 87.463(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.46300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.463 ENERGY OUT = 86.145(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 101.923 ENERGY OUT = 87.576(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.57600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.576 ENERGY OUT = 86.260(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.023 ENERGY OUT = 87.690(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.69000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.690 ENERGY OUT = 86.375(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.123 ENERGY OUT = 87.803(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.80300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.803 ENERGY OUT = 86.490(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.223 ENERGY OUT = 87.916(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 87.91600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 87.916 ENERGY OUT = 86.604(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.323 ENERGY OUT = 88.029(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.02900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.029 ENERGY OUT = 86.719(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.423 ENERGY OUT = 88.143(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.14300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.143 ENERGY OUT = 86.834(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.523 ENERGY OUT = 88.256(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.25600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.256 ENERGY OUT = 86.948(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.623 ENERGY OUT = 88.369(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.36900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.369 ENERGY OUT = 87.063(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.723 ENERGY OUT = 88.482(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.48200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.482 ENERGY OUT = 87.177(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.823 ENERGY OUT = 88.595(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.59500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.595 ENERGY OUT = 87.291(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 102.923 ENERGY OUT = 88.708(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.70800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.708 ENERGY OUT = 87.406(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.023 ENERGY OUT = 88.821(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.82100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.821 ENERGY OUT = 87.520(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.123 ENERGY OUT = 88.934(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 88.93400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 88.934 ENERGY OUT = 87.635(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.223 ENERGY OUT = 89.047(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.04700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.047 ENERGY OUT = 87.749(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.323 ENERGY OUT = 89.160(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.16000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.160 ENERGY OUT = 87.863(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.423 ENERGY OUT = 89.273(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.27300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.273 ENERGY OUT = 87.978(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.523 ENERGY OUT = 89.386(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.38600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.386 ENERGY OUT = 88.092(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.623 ENERGY OUT = 89.499(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.49900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.499 ENERGY OUT = 88.207(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.723 ENERGY OUT = 89.612(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.61200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.612 ENERGY OUT = 88.321(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.823 ENERGY OUT = 89.725(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.72500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.725 ENERGY OUT = 88.435(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 103.923 ENERGY OUT = 89.837(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.83700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.837 ENERGY OUT = 88.549(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.023 ENERGY OUT = 89.950(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 89.95000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 89.950 ENERGY OUT = 88.663(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.123 ENERGY OUT = 90.063(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.06300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.063 ENERGY OUT = 88.777(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.223 ENERGY OUT = 90.176(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.17600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.176 ENERGY OUT = 88.892(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.323 ENERGY OUT = 90.288(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.28800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.288 ENERGY OUT = 89.005(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.423 ENERGY OUT = 90.401(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.40100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.401 ENERGY OUT = 89.119(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.523 ENERGY OUT = 90.514(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.51400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.514 ENERGY OUT = 89.234(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.623 ENERGY OUT = 90.626(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.62600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.626 ENERGY OUT = 89.347(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.723 ENERGY OUT = 90.739(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.73900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.739 ENERGY OUT = 89.461(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.823 ENERGY OUT = 90.851(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.85100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.851 ENERGY OUT = 89.575(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 104.923 ENERGY OUT = 90.964(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 90.96400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 90.964 ENERGY OUT = 89.689(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.023 ENERGY OUT = 91.076(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.07600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.076 ENERGY OUT = 89.802(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.123 ENERGY OUT = 91.189(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.18900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.189 ENERGY OUT = 89.917(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.223 ENERGY OUT = 91.301(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.30100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.301 ENERGY OUT = 90.030(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.323 ENERGY OUT = 91.414(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.41400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.414 ENERGY OUT = 90.144(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.423 ENERGY OUT = 91.526(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.52600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.526 ENERGY OUT = 90.257(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.523 ENERGY OUT = 91.638(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.63800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.638 ENERGY OUT = 90.371(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.623 ENERGY OUT = 91.751(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.75100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.751 ENERGY OUT = 90.485(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.723 ENERGY OUT = 91.863(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.86300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.863 ENERGY OUT = 90.598(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN-1024 STEPS ENERGY IN = 105.823 ENERGY OUT = 91.975(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 91.97500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 91.975 ENERGY OUT = 90.712(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 105.923 ENERGY OUT = 92.089(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.08900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.089 ENERGY OUT = 90.827(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.023 ENERGY OUT = 92.201(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.20100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.201 ENERGY OUT = 90.940(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.123 ENERGY OUT = 92.313(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.31300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.313 ENERGY OUT = 91.053(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.223 ENERGY OUT = 92.425(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.42500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.425 ENERGY OUT = 91.167(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.323 ENERGY OUT = 92.537(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.53700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.537 ENERGY OUT = 91.280(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.423 ENERGY OUT = 92.650(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.65000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.650 ENERGY OUT = 91.394(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.523 ENERGY OUT = 92.762(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.76200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.762 ENERGY OUT = 91.508(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.623 ENERGY OUT = 92.874(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.87400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.874 ENERGY OUT = 91.621(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.723 ENERGY OUT = 92.986(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 92.98600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 92.986 ENERGY OUT = 91.734(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.823 ENERGY OUT = 93.098(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.09800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.098 ENERGY OUT = 91.847(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 106.923 ENERGY OUT = 93.210(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.21000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.210 ENERGY OUT = 91.961(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.023 ENERGY OUT = 93.322(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.32200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.322 ENERGY OUT = 92.074(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.123 ENERGY OUT = 93.434(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.43400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.434 ENERGY OUT = 92.187(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.223 ENERGY OUT = 93.546(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.54600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.546 ENERGY OUT = 92.300(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.323 ENERGY OUT = 93.658(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.65800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.658 ENERGY OUT = 92.414(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.423 ENERGY OUT = 93.770(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.77000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.770 ENERGY OUT = 92.527(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.523 ENERGY OUT = 93.882(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.88200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.882 ENERGY OUT = 92.640(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.623 ENERGY OUT = 93.993(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 93.99300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 93.993 ENERGY OUT = 92.752(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.723 ENERGY OUT = 94.105(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.10500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.105 ENERGY OUT = 92.866(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.823 ENERGY OUT = 94.217(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.21700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.217 ENERGY OUT = 92.979(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 107.923 ENERGY OUT = 94.329(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.32900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.329 ENERGY OUT = 93.092(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.023 ENERGY OUT = 94.441(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.44100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.441 ENERGY OUT = 93.205(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.123 ENERGY OUT = 94.552(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.55200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.552 ENERGY OUT = 93.317(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.223 ENERGY OUT = 94.664(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.66400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.664 ENERGY OUT = 93.431(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.323 ENERGY OUT = 94.776(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.77600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.776 ENERGY OUT = 93.544(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.423 ENERGY OUT = 94.887(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.88700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.887 ENERGY OUT = 93.656(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.523 ENERGY OUT = 94.999(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 94.99900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 94.999 ENERGY OUT = 93.769(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.623 ENERGY OUT = 95.111(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.11100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 95.111 ENERGY OUT = 93.882(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.723 ENERGY OUT = 95.222(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.22200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 95.222 ENERGY OUT = 93.995(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.823 ENERGY OUT = 95.334(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.33400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 95.334 ENERGY OUT = 94.108(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 108.923 ENERGY OUT = 95.446(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.44600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 95.446 ENERGY OUT = 94.221(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.023 ENERGY OUT = 95.557(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.55700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 95.557 ENERGY OUT = 94.333(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.123 ENERGY OUT = 95.669(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.66900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 95.669 ENERGY OUT = 94.446(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.223 ENERGY OUT = 95.780(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.78000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 95.780 ENERGY OUT = 94.559(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.323 ENERGY OUT = 95.891(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 95.89100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 95.891 ENERGY OUT = 94.671(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.423 ENERGY OUT = 96.003(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.00300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.003 ENERGY OUT = 94.784(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.523 ENERGY OUT = 96.114(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.11400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.114 ENERGY OUT = 94.896(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.623 ENERGY OUT = 96.226(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.22600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.226 ENERGY OUT = 95.009(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.723 ENERGY OUT = 96.337(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.33700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.337 ENERGY OUT = 95.122(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.823 ENERGY OUT = 96.448(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.44800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.448 ENERGY OUT = 95.234(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 109.923 ENERGY OUT = 96.560(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.56000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.560 ENERGY OUT = 95.347(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.023 ENERGY OUT = 96.671(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.67100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.671 ENERGY OUT = 95.459(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.123 ENERGY OUT = 96.782(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.78200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.782 ENERGY OUT = 95.571(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.223 ENERGY OUT = 96.894(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 96.89400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 96.894 ENERGY OUT = 95.684(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.323 ENERGY OUT = 97.005(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.00500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.005 ENERGY OUT = 95.797(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.423 ENERGY OUT = 97.116(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.11600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.116 ENERGY OUT = 95.909(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.523 ENERGY OUT = 97.227(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.22700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.227 ENERGY OUT = 96.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.623 ENERGY OUT = 97.339(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.33900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.339 ENERGY OUT = 96.134(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.723 ENERGY OUT = 97.450(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.45000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.450 ENERGY OUT = 96.246(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.823 ENERGY OUT = 97.561(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.56100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.561 ENERGY OUT = 96.358(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 110.923 ENERGY OUT = 97.672(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.67200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.672 ENERGY OUT = 96.470(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.023 ENERGY OUT = 97.783(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.78300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.783 ENERGY OUT = 96.583(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.123 ENERGY OUT = 97.894(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 97.89400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 97.894 ENERGY OUT = 96.695(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.223 ENERGY OUT = 98.005(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.00500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.005 ENERGY OUT = 96.807(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.323 ENERGY OUT = 98.116(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.11600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.116 ENERGY OUT = 96.919(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.423 ENERGY OUT = 98.227(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.22700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.227 ENERGY OUT = 97.031(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.523 ENERGY OUT = 98.338(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.33800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.338 ENERGY OUT = 97.143(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.623 ENERGY OUT = 98.449(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.44900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.449 ENERGY OUT = 97.255(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.723 ENERGY OUT = 98.560(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.56000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.560 ENERGY OUT = 97.367(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.823 ENERGY OUT = 98.671(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.67100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.671 ENERGY OUT = 97.480(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 111.923 ENERGY OUT = 98.782(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.78200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.782 ENERGY OUT = 97.592(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.023 ENERGY OUT = 98.893(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 98.89300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 98.893 ENERGY OUT = 97.704(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.123 ENERGY OUT = 99.004(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.00400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.004 ENERGY OUT = 97.816(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.223 ENERGY OUT = 99.115(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.11500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.115 ENERGY OUT = 97.928(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.323 ENERGY OUT = 99.225(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.22500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.225 ENERGY OUT = 98.039(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.423 ENERGY OUT = 99.336(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.33600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.336 ENERGY OUT = 98.151(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.523 ENERGY OUT = 99.447(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.44700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.447 ENERGY OUT = 98.263(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.623 ENERGY OUT = 99.558(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.55800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.558 ENERGY OUT = 98.375(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.723 ENERGY OUT = 99.669(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.66900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.669 ENERGY OUT = 98.488(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.823 ENERGY OUT = 99.779(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.77900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.779 ENERGY OUT = 98.599(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 112.923 ENERGY OUT = 99.890(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 99.89000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 99.890 ENERGY OUT = 98.711(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.023 ENERGY OUT = 100.001(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.00100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.001 ENERGY OUT = 98.823(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.123 ENERGY OUT = 100.111(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.11100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.111 ENERGY OUT = 98.934(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.223 ENERGY OUT = 100.222(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.22200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.222 ENERGY OUT = 99.046(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.323 ENERGY OUT = 100.333(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.33300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.333 ENERGY OUT = 99.158(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.423 ENERGY OUT = 100.443(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.44300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.443 ENERGY OUT = 99.269(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.523 ENERGY OUT = 100.554(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.55400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.554 ENERGY OUT = 99.381(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.623 ENERGY OUT = 100.664(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.66400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.664 ENERGY OUT = 99.492(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.723 ENERGY OUT = 100.775(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.77500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.775 ENERGY OUT = 99.604(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.823 ENERGY OUT = 100.885(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.88500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.885 ENERGY OUT = 99.715(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 113.923 ENERGY OUT = 100.996(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 100.99600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 100.996 ENERGY OUT = 99.828(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.023 ENERGY OUT = 101.106(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.10600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.106 ENERGY OUT = 99.939(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.123 ENERGY OUT = 101.217(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.21700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.217 ENERGY OUT = 100.051(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.223 ENERGY OUT = 101.327(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.32700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.327 ENERGY OUT = 100.162(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.323 ENERGY OUT = 101.438(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.43800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.438 ENERGY OUT = 100.274(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.423 ENERGY OUT = 101.548(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.54800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.548 ENERGY OUT = 100.385(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.523 ENERGY OUT = 101.659(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.65900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.659 ENERGY OUT = 100.497(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.623 ENERGY OUT = 101.769(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.76900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.769 ENERGY OUT = 100.608(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.723 ENERGY OUT = 101.879(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.87900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.879 ENERGY OUT = 100.719(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.823 ENERGY OUT = 101.990(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 101.99000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 101.990 ENERGY OUT = 100.831(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 114.923 ENERGY OUT = 102.100(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.10000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.100 ENERGY OUT = 100.942(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.023 ENERGY OUT = 102.210(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.21000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.210 ENERGY OUT = 101.053(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.123 ENERGY OUT = 102.320(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.32000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.320 ENERGY OUT = 101.164(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.223 ENERGY OUT = 102.431(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.43100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.431 ENERGY OUT = 101.276(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.323 ENERGY OUT = 102.541(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.54100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.541 ENERGY OUT = 101.387(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.423 ENERGY OUT = 102.651(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.65100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.651 ENERGY OUT = 101.498(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.523 ENERGY OUT = 102.761(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.76100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.761 ENERGY OUT = 101.609(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.623 ENERGY OUT = 102.872(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.87200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.872 ENERGY OUT = 101.721(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.723 ENERGY OUT = 102.982(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 102.98200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 102.982 ENERGY OUT = 101.832(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.823 ENERGY OUT = 103.092(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.09200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.092 ENERGY OUT = 101.943(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 115.923 ENERGY OUT = 103.202(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.20200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.202 ENERGY OUT = 102.054(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.023 ENERGY OUT = 103.312(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.31200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.312 ENERGY OUT = 102.165(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.123 ENERGY OUT = 103.422(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.42200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.422 ENERGY OUT = 102.277(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.223 ENERGY OUT = 103.532(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.53200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.532 ENERGY OUT = 102.388(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.323 ENERGY OUT = 103.642(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.64200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.642 ENERGY OUT = 102.499(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.423 ENERGY OUT = 103.752(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.75200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.752 ENERGY OUT = 102.610(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.523 ENERGY OUT = 103.862(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.86200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.862 ENERGY OUT = 102.721(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.623 ENERGY OUT = 103.972(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 103.97200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 103.972 ENERGY OUT = 102.832(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.723 ENERGY OUT = 104.082(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.08200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.082 ENERGY OUT = 102.943(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.823 ENERGY OUT = 104.192(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.19200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.192 ENERGY OUT = 103.054(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 116.923 ENERGY OUT = 104.302(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.30200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.302 ENERGY OUT = 103.165(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.023 ENERGY OUT = 104.412(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.41200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.412 ENERGY OUT = 103.276(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.123 ENERGY OUT = 104.522(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.52200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.522 ENERGY OUT = 103.387(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.223 ENERGY OUT = 104.632(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.63200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.632 ENERGY OUT = 103.498(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.323 ENERGY OUT = 104.742(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.74200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.742 ENERGY OUT = 103.609(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.423 ENERGY OUT = 104.852(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.85200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.852 ENERGY OUT = 103.720(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.523 ENERGY OUT = 104.962(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 104.96200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 104.962 ENERGY OUT = 103.831(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.623 ENERGY OUT = 105.072(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.07200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.072 ENERGY OUT = 103.942(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.723 ENERGY OUT = 105.181(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.18100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.181 ENERGY OUT = 104.052(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.823 ENERGY OUT = 105.291(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.29100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.291 ENERGY OUT = 104.163(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 117.923 ENERGY OUT = 105.401(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.40100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.401 ENERGY OUT = 104.274(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.023 ENERGY OUT = 105.511(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.51100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.511 ENERGY OUT = 104.385(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.123 ENERGY OUT = 105.620(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.62000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.620 ENERGY OUT = 104.494(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.223 ENERGY OUT = 105.730(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.73000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.730 ENERGY OUT = 104.605(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.323 ENERGY OUT = 105.840(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.84000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.840 ENERGY OUT = 104.716(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.423 ENERGY OUT = 105.950(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 105.95000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 105.950 ENERGY OUT = 104.827(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.523 ENERGY OUT = 106.059(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.05900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.059 ENERGY OUT = 104.937(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.623 ENERGY OUT = 106.169(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.16900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.169 ENERGY OUT = 105.048(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.723 ENERGY OUT = 106.278(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.27800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.278 ENERGY OUT = 105.158(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.823 ENERGY OUT = 106.388(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.38800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.388 ENERGY OUT = 105.269(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 118.923 ENERGY OUT = 106.498(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.49800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.498 ENERGY OUT = 105.380(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.023 ENERGY OUT = 106.607(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.60700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.607 ENERGY OUT = 105.490(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.123 ENERGY OUT = 106.717(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.71700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.717 ENERGY OUT = 105.601(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.223 ENERGY OUT = 106.826(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.82600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.826 ENERGY OUT = 105.711(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.323 ENERGY OUT = 106.936(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 106.93600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 106.936 ENERGY OUT = 105.822(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.423 ENERGY OUT = 107.046(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.04600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.046 ENERGY OUT = 105.933(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.523 ENERGY OUT = 107.155(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.15500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.155 ENERGY OUT = 106.043(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.623 ENERGY OUT = 107.264(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.26400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.264 ENERGY OUT = 106.153(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.723 ENERGY OUT = 107.374(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.37400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.374 ENERGY OUT = 106.264(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.823 ENERGY OUT = 107.483(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.48300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.483 ENERGY OUT = 106.374(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 119.923 ENERGY OUT = 107.593(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.59300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.593 ENERGY OUT = 106.485(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.023 ENERGY OUT = 107.702(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.70200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.702 ENERGY OUT = 106.595(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.123 ENERGY OUT = 107.812(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.81200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.812 ENERGY OUT = 106.706(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.223 ENERGY OUT = 107.921(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 107.92100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 107.921 ENERGY OUT = 106.816(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.323 ENERGY OUT = 108.030(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.03000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.030 ENERGY OUT = 106.926(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.423 ENERGY OUT = 108.140(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.14000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.140 ENERGY OUT = 107.036(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.523 ENERGY OUT = 108.249(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.24900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.249 ENERGY OUT = 107.146(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.623 ENERGY OUT = 108.358(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.35800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.358 ENERGY OUT = 107.256(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.723 ENERGY OUT = 108.468(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.46800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.468 ENERGY OUT = 107.367(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.823 ENERGY OUT = 108.577(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.57700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.577 ENERGY OUT = 107.477(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 120.923 ENERGY OUT = 108.686(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.68600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.686 ENERGY OUT = 107.587(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.023 ENERGY OUT = 108.795(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.79500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.795 ENERGY OUT = 107.697(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.123 ENERGY OUT = 108.905(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 108.90500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 108.905 ENERGY OUT = 107.808(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.223 ENERGY OUT = 109.014(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.01400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.014 ENERGY OUT = 107.918(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.323 ENERGY OUT = 109.123(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.123 ENERGY OUT = 108.028(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.423 ENERGY OUT = 109.232(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.23200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.232 ENERGY OUT = 108.138(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.523 ENERGY OUT = 109.342(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.34200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.342 ENERGY OUT = 108.249(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.623 ENERGY OUT = 109.451(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.45100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.451 ENERGY OUT = 108.359(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.723 ENERGY OUT = 109.560(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.56000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.560 ENERGY OUT = 108.468(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.823 ENERGY OUT = 109.669(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.66900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.669 ENERGY OUT = 108.578(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 121.923 ENERGY OUT = 109.778(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.77800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.778 ENERGY OUT = 108.688(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.023 ENERGY OUT = 109.887(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.88700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.887 ENERGY OUT = 108.798(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.123 ENERGY OUT = 109.996(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 109.99600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 109.996 ENERGY OUT = 108.908(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.223 ENERGY OUT = 110.105(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.10500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.105 ENERGY OUT = 109.018(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.323 ENERGY OUT = 110.214(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.21400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.214 ENERGY OUT = 109.128(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.423 ENERGY OUT = 110.324(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.32400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.324 ENERGY OUT = 109.239(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.523 ENERGY OUT = 110.433(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.43300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.433 ENERGY OUT = 109.349(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.623 ENERGY OUT = 110.542(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.54200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.542 ENERGY OUT = 109.459(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.723 ENERGY OUT = 110.651(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.65100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.651 ENERGY OUT = 109.568(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.823 ENERGY OUT = 110.759(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.75900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.759 ENERGY OUT = 109.677(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 122.923 ENERGY OUT = 110.869(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.86900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.869 ENERGY OUT = 109.788(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.023 ENERGY OUT = 110.977(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 110.97700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 110.977 ENERGY OUT = 109.897(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.123 ENERGY OUT = 111.086(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.08600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.086 ENERGY OUT = 110.007(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.223 ENERGY OUT = 111.195(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.19500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.195 ENERGY OUT = 110.117(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.323 ENERGY OUT = 111.304(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.30400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.304 ENERGY OUT = 110.227(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.423 ENERGY OUT = 111.413(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.41300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.413 ENERGY OUT = 110.337(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.523 ENERGY OUT = 111.522(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.52200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.522 ENERGY OUT = 110.447(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.623 ENERGY OUT = 111.631(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.63100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.631 ENERGY OUT = 110.556(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.723 ENERGY OUT = 111.740(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.74000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.740 ENERGY OUT = 110.666(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.823 ENERGY OUT = 111.849(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.84900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.849 ENERGY OUT = 110.776(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 123.923 ENERGY OUT = 111.957(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 111.95700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 111.957 ENERGY OUT = 110.885(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.023 ENERGY OUT = 112.066(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.06600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.066 ENERGY OUT = 110.995(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.123 ENERGY OUT = 112.175(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.17500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.175 ENERGY OUT = 111.105(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.223 ENERGY OUT = 112.284(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.28400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.284 ENERGY OUT = 111.215(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.323 ENERGY OUT = 112.392(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.39200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.392 ENERGY OUT = 111.324(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.423 ENERGY OUT = 112.501(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.50100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.501 ENERGY OUT = 111.433(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.523 ENERGY OUT = 112.610(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.61000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.610 ENERGY OUT = 111.543(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.623 ENERGY OUT = 112.719(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.71900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.719 ENERGY OUT = 111.653(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.723 ENERGY OUT = 112.827(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.82700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.827 ENERGY OUT = 111.762(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.823 ENERGY OUT = 112.936(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 112.93600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 112.936 ENERGY OUT = 111.872(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 124.923 ENERGY OUT = 113.045(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.04500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.045 ENERGY OUT = 111.982(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.023 ENERGY OUT = 113.153(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.15300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.153 ENERGY OUT = 112.091(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.123 ENERGY OUT = 113.262(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.26200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.262 ENERGY OUT = 112.200(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.223 ENERGY OUT = 113.371(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.37100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.371 ENERGY OUT = 112.310(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.323 ENERGY OUT = 113.479(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.47900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.479 ENERGY OUT = 112.419(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.423 ENERGY OUT = 113.588(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.58800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.588 ENERGY OUT = 112.529(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.523 ENERGY OUT = 113.696(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.69600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.696 ENERGY OUT = 112.638(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.623 ENERGY OUT = 113.805(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.80500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.805 ENERGY OUT = 112.748(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.723 ENERGY OUT = 113.914(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 113.91400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 113.914 ENERGY OUT = 112.857(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.823 ENERGY OUT = 114.022(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.02200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.022 ENERGY OUT = 112.966(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 125.923 ENERGY OUT = 114.131(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.13100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.131 ENERGY OUT = 113.076(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.023 ENERGY OUT = 114.239(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.23900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.239 ENERGY OUT = 113.185(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.123 ENERGY OUT = 114.348(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.34800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.348 ENERGY OUT = 113.295(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.223 ENERGY OUT = 114.456(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.45600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.456 ENERGY OUT = 113.404(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.323 ENERGY OUT = 114.565(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.56500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.565 ENERGY OUT = 113.514(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.423 ENERGY OUT = 114.673(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.67300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.673 ENERGY OUT = 113.622(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.523 ENERGY OUT = 114.781(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.78100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.781 ENERGY OUT = 113.731(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.623 ENERGY OUT = 114.890(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.89000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.890 ENERGY OUT = 113.841(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.723 ENERGY OUT = 114.998(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 114.99800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 114.998 ENERGY OUT = 113.950(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.823 ENERGY OUT = 115.107(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.10700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.107 ENERGY OUT = 114.060(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 126.923 ENERGY OUT = 115.215(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.21500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.215 ENERGY OUT = 114.168(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.02300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.023 ENERGY OUT = 115.324(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.32400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.324 ENERGY OUT = 114.278(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.123 ENERGY OUT = 115.432(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.43200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.432 ENERGY OUT = 114.387(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.22300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.223 ENERGY OUT = 115.540(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.54000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.540 ENERGY OUT = 114.496(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.323 ENERGY OUT = 115.649(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.64900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.649 ENERGY OUT = 114.606(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.423 ENERGY OUT = 115.757(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.75700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.757 ENERGY OUT = 114.715(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.523 ENERGY OUT = 115.865(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.86500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.865 ENERGY OUT = 114.823(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.623 ENERGY OUT = 115.974(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 115.97400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 115.974 ENERGY OUT = 114.933(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.72300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.723 ENERGY OUT = 116.082(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.08200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.082 ENERGY OUT = 115.042(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.823 ENERGY OUT = 116.190(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.19000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.190 ENERGY OUT = 115.151(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 127.923 ENERGY OUT = 116.298(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.29800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.298 ENERGY OUT = 115.260(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.023 ENERGY OUT = 116.407(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.40700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.407 ENERGY OUT = 115.369(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.123 ENERGY OUT = 116.515(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.51500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.515 ENERGY OUT = 115.478(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.223 ENERGY OUT = 116.623(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.623 ENERGY OUT = 115.587(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.323 ENERGY OUT = 116.731(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.73100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.731 ENERGY OUT = 115.696(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.423 ENERGY OUT = 116.840(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.84000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.840 ENERGY OUT = 115.806(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.523 ENERGY OUT = 116.948(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 116.94800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 116.948 ENERGY OUT = 115.914(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.623 ENERGY OUT = 117.056(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.05600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.056 ENERGY OUT = 116.023(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.723 ENERGY OUT = 117.164(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.16400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.164 ENERGY OUT = 116.132(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.823 ENERGY OUT = 117.272(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.27200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.272 ENERGY OUT = 116.241(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 128.923 ENERGY OUT = 117.380(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.38000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.380 ENERGY OUT = 116.350(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.023 ENERGY OUT = 117.488(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.48800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.488 ENERGY OUT = 116.458(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.123 ENERGY OUT = 117.596(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.59600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.596 ENERGY OUT = 116.567(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.223 ENERGY OUT = 117.705(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.70500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.705 ENERGY OUT = 116.677(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.323 ENERGY OUT = 117.813(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.81300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.813 ENERGY OUT = 116.786(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.423 ENERGY OUT = 117.921(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 117.92100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 117.921 ENERGY OUT = 116.895(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.523 ENERGY OUT = 118.029(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.02900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.029 ENERGY OUT = 117.003(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.623 ENERGY OUT = 118.137(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.13700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.137 ENERGY OUT = 117.112(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.723 ENERGY OUT = 118.245(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.24500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.245 ENERGY OUT = 117.221(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.823 ENERGY OUT = 118.353(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.35300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.353 ENERGY OUT = 117.330(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 129.923 ENERGY OUT = 118.461(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.46100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.461 ENERGY OUT = 117.439(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.023 ENERGY OUT = 118.569(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.56900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.569 ENERGY OUT = 117.547(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.123 ENERGY OUT = 118.677(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.67700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.677 ENERGY OUT = 117.656(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.223 ENERGY OUT = 118.785(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.78500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.785 ENERGY OUT = 117.765(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.323 ENERGY OUT = 118.893(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 118.89300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 118.893 ENERGY OUT = 117.874(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.423 ENERGY OUT = 119.001(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.00100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.001 ENERGY OUT = 117.982(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.523 ENERGY OUT = 119.109(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.10900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.109 ENERGY OUT = 118.091(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.623 ENERGY OUT = 119.217(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.21700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.217 ENERGY OUT = 118.200(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.723 ENERGY OUT = 119.324(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.32400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.324 ENERGY OUT = 118.308(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.823 ENERGY OUT = 119.432(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.43200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.432 ENERGY OUT = 118.417(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 130.923 ENERGY OUT = 119.540(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.54000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.540 ENERGY OUT = 118.525(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.023 ENERGY OUT = 119.648(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.64800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.648 ENERGY OUT = 118.634(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.123 ENERGY OUT = 119.756(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.75600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.756 ENERGY OUT = 118.743(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.223 ENERGY OUT = 119.864(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.86400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.864 ENERGY OUT = 118.852(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.323 ENERGY OUT = 119.972(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 119.97200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 119.972 ENERGY OUT = 118.960(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.423 ENERGY OUT = 120.079(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.07900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.079 ENERGY OUT = 119.068(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.523 ENERGY OUT = 120.187(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.18700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.187 ENERGY OUT = 119.177(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.623 ENERGY OUT = 120.295(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.29500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.295 ENERGY OUT = 119.286(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.723 ENERGY OUT = 120.403(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.40300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.403 ENERGY OUT = 119.394(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.823 ENERGY OUT = 120.511(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.51100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.511 ENERGY OUT = 119.503(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 131.923 ENERGY OUT = 120.618(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.61800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.618 ENERGY OUT = 119.611(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.023 ENERGY OUT = 120.726(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.72600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.726 ENERGY OUT = 119.720(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.123 ENERGY OUT = 120.834(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.83400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.834 ENERGY OUT = 119.828(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.223 ENERGY OUT = 120.942(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 120.94200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 120.942 ENERGY OUT = 119.937(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.323 ENERGY OUT = 121.049(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.04900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.049 ENERGY OUT = 120.045(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.423 ENERGY OUT = 121.157(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.15700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.157 ENERGY OUT = 120.154(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.523 ENERGY OUT = 121.265(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.26500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.265 ENERGY OUT = 120.262(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.623 ENERGY OUT = 121.372(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.37200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.372 ENERGY OUT = 120.370(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.723 ENERGY OUT = 121.480(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.48000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.480 ENERGY OUT = 120.479(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.823 ENERGY OUT = 121.588(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.58800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.588 ENERGY OUT = 120.588(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 132.923 ENERGY OUT = 121.695(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.69500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.695 ENERGY OUT = 120.695(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.023 ENERGY OUT = 121.803(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.80300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.803 ENERGY OUT = 120.804(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.123 ENERGY OUT = 121.910(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 121.91000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 121.910 ENERGY OUT = 120.912(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.223 ENERGY OUT = 122.018(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.01800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.018 ENERGY OUT = 121.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.323 ENERGY OUT = 122.126(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.12600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.126 ENERGY OUT = 121.129(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.423 ENERGY OUT = 122.233(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.23300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.233 ENERGY OUT = 121.237(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.523 ENERGY OUT = 122.341(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.34100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.341 ENERGY OUT = 121.346(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.623 ENERGY OUT = 122.448(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.44800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.448 ENERGY OUT = 121.454(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.723 ENERGY OUT = 122.556(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.55600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.556 ENERGY OUT = 121.562(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.823 ENERGY OUT = 122.663(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.66300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.663 ENERGY OUT = 121.670(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 133.923 ENERGY OUT = 122.771(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.77100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.771 ENERGY OUT = 121.779(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.023 ENERGY OUT = 122.879(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.87900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.879 ENERGY OUT = 121.887(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.123 ENERGY OUT = 122.986(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 122.98600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 122.986 ENERGY OUT = 121.995(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.223 ENERGY OUT = 123.094(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.09400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.094 ENERGY OUT = 122.104(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.323 ENERGY OUT = 123.201(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.20100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.201 ENERGY OUT = 122.212(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.423 ENERGY OUT = 123.309(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.30900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.309 ENERGY OUT = 122.320(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.523 ENERGY OUT = 123.416(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.41600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.416 ENERGY OUT = 122.428(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.623 ENERGY OUT = 123.523(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.52300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.523 ENERGY OUT = 122.536(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.723 ENERGY OUT = 123.631(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.63100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.631 ENERGY OUT = 122.645(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.823 ENERGY OUT = 123.738(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.73800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.738 ENERGY OUT = 122.752(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 134.923 ENERGY OUT = 123.846(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.84600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.846 ENERGY OUT = 122.861(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.023 ENERGY OUT = 123.953(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 123.95300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 123.953 ENERGY OUT = 122.969(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.123 ENERGY OUT = 124.060(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.06000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.060 ENERGY OUT = 123.076(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.223 ENERGY OUT = 124.168(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.16800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.168 ENERGY OUT = 123.185(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.323 ENERGY OUT = 124.275(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.27500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.275 ENERGY OUT = 123.293(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.423 ENERGY OUT = 124.383(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.38300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.383 ENERGY OUT = 123.402(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.523 ENERGY OUT = 124.490(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.49000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.490 ENERGY OUT = 123.509(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.623 ENERGY OUT = 124.597(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.59700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.597 ENERGY OUT = 123.617(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.723 ENERGY OUT = 124.704(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.70400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.704 ENERGY OUT = 123.725(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.823 ENERGY OUT = 124.812(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.81200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.812 ENERGY OUT = 123.833(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 135.923 ENERGY OUT = 124.919(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 124.91900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 124.919 ENERGY OUT = 123.941(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.023 ENERGY OUT = 125.026(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.02600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.026 ENERGY OUT = 124.049(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.123 ENERGY OUT = 125.134(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.13400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.134 ENERGY OUT = 124.158(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.223 ENERGY OUT = 125.241(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.24100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.241 ENERGY OUT = 124.265(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.323 ENERGY OUT = 125.348(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.34800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.348 ENERGY OUT = 124.373(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.423 ENERGY OUT = 125.456(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.45600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.456 ENERGY OUT = 124.482(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.523 ENERGY OUT = 125.563(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.56300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.563 ENERGY OUT = 124.589(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.623 ENERGY OUT = 125.670(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.67000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.670 ENERGY OUT = 124.697(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.723 ENERGY OUT = 125.777(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.77700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.777 ENERGY OUT = 124.805(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.823 ENERGY OUT = 125.884(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.88400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.884 ENERGY OUT = 124.912(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 136.923 ENERGY OUT = 125.992(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 125.99200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 125.992 ENERGY OUT = 125.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.023 ENERGY OUT = 126.099(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.09900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 64 STEPS ENERGY IN = 126.099 ENERGY OUT = 125.129(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.123 ENERGY OUT = 126.206(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.20600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 126.206 ENERGY OUT = 125.237(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.223 ENERGY OUT = 126.313(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.31300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 126.313 ENERGY OUT = 125.344(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.323 ENERGY OUT = 126.420(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.42000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 126.420 ENERGY OUT = 125.452(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.423 ENERGY OUT = 126.527(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.52700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 126.527 ENERGY OUT = 125.560(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.523 ENERGY OUT = 126.634(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.63400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 126.634 ENERGY OUT = 125.667(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.623 ENERGY OUT = 126.742(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.74200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 126.742 ENERGY OUT = 125.776(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.723 ENERGY OUT = 126.849(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.84900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 126.849 ENERGY OUT = 125.884(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.823 ENERGY OUT = 126.956(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 126.95600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 126.956 ENERGY OUT = 125.991(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 137.923 ENERGY OUT = 127.063(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.06300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.063 ENERGY OUT = 126.099(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.023 ENERGY OUT = 127.170(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.17000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.170 ENERGY OUT = 126.207(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.123 ENERGY OUT = 127.277(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.27700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.277 ENERGY OUT = 126.314(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.223 ENERGY OUT = 127.384(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.38400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.384 ENERGY OUT = 126.422(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.323 ENERGY OUT = 127.491(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.49100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.491 ENERGY OUT = 126.530(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.423 ENERGY OUT = 127.598(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.59800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.598 ENERGY OUT = 126.637(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.523 ENERGY OUT = 127.705(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.70500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.705 ENERGY OUT = 126.745(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.623 ENERGY OUT = 127.812(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.81200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.812 ENERGY OUT = 126.853(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.723 ENERGY OUT = 127.919(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 127.91900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 127.919 ENERGY OUT = 126.960(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.823 ENERGY OUT = 128.026(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.02600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.026 ENERGY OUT = 127.068(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 138.923 ENERGY OUT = 128.133(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.13300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.133 ENERGY OUT = 127.176(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.023 ENERGY OUT = 128.240(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.24001 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.240 ENERGY OUT = 127.283(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.123 ENERGY OUT = 128.347(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.34700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.347 ENERGY OUT = 127.391(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.223 ENERGY OUT = 128.454(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.45399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.454 ENERGY OUT = 127.499(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.323 ENERGY OUT = 128.561(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.56100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.561 ENERGY OUT = 127.606(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.423 ENERGY OUT = 128.668(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.66800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.668 ENERGY OUT = 127.714(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.523 ENERGY OUT = 128.775(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.77499 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.775 ENERGY OUT = 127.822(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.623 ENERGY OUT = 128.882(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.88200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.882 ENERGY OUT = 127.929(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.723 ENERGY OUT = 128.989(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 128.98900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 128.989 ENERGY OUT = 128.037(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.823 ENERGY OUT = 129.096(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.09599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.096 ENERGY OUT = 128.145(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 139.923 ENERGY OUT = 129.203(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.20300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.203 ENERGY OUT = 128.252(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.023 ENERGY OUT = 129.310(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.31000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.310 ENERGY OUT = 128.360(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.123 ENERGY OUT = 129.416(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.41600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.416 ENERGY OUT = 128.467(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.223 ENERGY OUT = 129.523(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.523 ENERGY OUT = 128.574(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.323 ENERGY OUT = 129.630(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.63000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.630 ENERGY OUT = 128.682(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.423 ENERGY OUT = 129.737(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.73700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.737 ENERGY OUT = 128.790(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.523 ENERGY OUT = 129.844(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.84399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.844 ENERGY OUT = 128.897(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.623 ENERGY OUT = 129.951(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 129.95100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 129.951 ENERGY OUT = 129.005(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.723 ENERGY OUT = 130.057(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.05701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.057 ENERGY OUT = 129.112(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.823 ENERGY OUT = 130.164(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.16400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.164 ENERGY OUT = 129.219(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 140.923 ENERGY OUT = 130.271(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.27100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.271 ENERGY OUT = 129.327(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.023 ENERGY OUT = 130.378(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.37801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.378 ENERGY OUT = 129.435(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.123 ENERGY OUT = 130.484(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.48399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.484 ENERGY OUT = 129.541(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.223 ENERGY OUT = 130.591(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.59100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.591 ENERGY OUT = 129.649(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.323 ENERGY OUT = 130.698(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.69800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.698 ENERGY OUT = 129.757(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.423 ENERGY OUT = 130.805(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.80499 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.805 ENERGY OUT = 129.864(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.523 ENERGY OUT = 130.911(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 130.91100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 130.911 ENERGY OUT = 129.971(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.623 ENERGY OUT = 131.018(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.01801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.018 ENERGY OUT = 130.078(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.723 ENERGY OUT = 131.125(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.12500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.125 ENERGY OUT = 130.186(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.823 ENERGY OUT = 131.232(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.23199 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.232 ENERGY OUT = 130.294(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 141.923 ENERGY OUT = 131.338(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.33800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.338 ENERGY OUT = 130.400(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.023 ENERGY OUT = 131.445(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.44501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.445 ENERGY OUT = 130.508(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.123 ENERGY OUT = 131.552(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.55200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.552 ENERGY OUT = 130.616(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.223 ENERGY OUT = 131.658(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.65800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.658 ENERGY OUT = 130.722(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.323 ENERGY OUT = 131.765(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.76500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.765 ENERGY OUT = 130.830(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.423 ENERGY OUT = 131.872(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.87199 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.872 ENERGY OUT = 130.938(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.523 ENERGY OUT = 131.978(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 131.97800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 131.978 ENERGY OUT = 131.044(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.623 ENERGY OUT = 132.085(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.08501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.085 ENERGY OUT = 131.152(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.723 ENERGY OUT = 132.192(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.19200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.192 ENERGY OUT = 131.260(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.823 ENERGY OUT = 132.298(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.29800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.298 ENERGY OUT = 131.366(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 142.923 ENERGY OUT = 132.405(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.40500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.405 ENERGY OUT = 131.474(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.023 ENERGY OUT = 132.511(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.51100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.511 ENERGY OUT = 131.580(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.123 ENERGY OUT = 132.618(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.61800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.618 ENERGY OUT = 131.688(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.223 ENERGY OUT = 132.724(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.72400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.724 ENERGY OUT = 131.795(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.323 ENERGY OUT = 132.831(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.83099 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.831 ENERGY OUT = 131.902(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.423 ENERGY OUT = 132.938(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 132.93800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 132.938 ENERGY OUT = 132.010(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.523 ENERGY OUT = 133.044(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.04401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.044 ENERGY OUT = 132.117(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.623 ENERGY OUT = 133.151(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.15100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.151 ENERGY OUT = 132.224(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.723 ENERGY OUT = 133.257(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.25700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.257 ENERGY OUT = 132.331(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.823 ENERGY OUT = 133.364(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.36400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.364 ENERGY OUT = 132.438(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 143.923 ENERGY OUT = 133.470(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.47000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.470 ENERGY OUT = 132.545(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.023 ENERGY OUT = 133.577(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.57700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.577 ENERGY OUT = 132.653(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.123 ENERGY OUT = 133.683(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.68300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.683 ENERGY OUT = 132.759(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.223 ENERGY OUT = 133.790(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.78999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.790 ENERGY OUT = 132.867(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.323 ENERGY OUT = 133.896(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 133.89600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 133.896 ENERGY OUT = 132.973(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.423 ENERGY OUT = 134.003(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.00301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.003 ENERGY OUT = 133.081(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.523 ENERGY OUT = 134.109(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.10899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.109 ENERGY OUT = 133.188(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.623 ENERGY OUT = 134.216(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.21600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.216 ENERGY OUT = 133.295(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.723 ENERGY OUT = 134.322(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.32201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.322 ENERGY OUT = 133.402(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.823 ENERGY OUT = 134.428(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.42799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.428 ENERGY OUT = 133.509(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 144.923 ENERGY OUT = 134.535(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.53500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.535 ENERGY OUT = 133.616(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.023 ENERGY OUT = 134.641(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.64101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.641 ENERGY OUT = 133.723(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.123 ENERGY OUT = 134.748(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.74800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.748 ENERGY OUT = 133.830(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.223 ENERGY OUT = 134.854(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.85400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.854 ENERGY OUT = 133.937(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.323 ENERGY OUT = 134.961(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 134.96100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 134.961 ENERGY OUT = 134.045(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.423 ENERGY OUT = 135.067(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.06700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.067 ENERGY OUT = 134.151(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.523 ENERGY OUT = 135.173(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.17300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.173 ENERGY OUT = 134.258(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.623 ENERGY OUT = 135.280(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.28000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.280 ENERGY OUT = 134.365(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.723 ENERGY OUT = 135.386(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.38600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.386 ENERGY OUT = 134.472(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.823 ENERGY OUT = 135.492(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.49200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.492 ENERGY OUT = 134.579(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 145.923 ENERGY OUT = 135.599(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.59900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.599 ENERGY OUT = 134.686(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.023 ENERGY OUT = 135.705(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.70500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.705 ENERGY OUT = 134.793(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.123 ENERGY OUT = 135.811(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.81100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.811 ENERGY OUT = 134.899(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.223 ENERGY OUT = 135.918(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 135.91800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 135.918 ENERGY OUT = 135.007(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.323 ENERGY OUT = 136.024(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.02400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.024 ENERGY OUT = 135.114(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.423 ENERGY OUT = 136.130(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.13000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.130 ENERGY OUT = 135.220(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.523 ENERGY OUT = 136.236(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.23599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.236 ENERGY OUT = 135.327(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.623 ENERGY OUT = 136.343(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.34300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.343 ENERGY OUT = 135.434(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.723 ENERGY OUT = 136.449(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.44901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.449 ENERGY OUT = 135.541(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.823 ENERGY OUT = 136.555(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.55499 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.555 ENERGY OUT = 135.648(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 146.923 ENERGY OUT = 136.662(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.66200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.662 ENERGY OUT = 135.755(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.023 ENERGY OUT = 136.768(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.76801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.768 ENERGY OUT = 135.862(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.123 ENERGY OUT = 136.874(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.87399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.874 ENERGY OUT = 135.968(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.223 ENERGY OUT = 136.980(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 136.98000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 136.980 ENERGY OUT = 136.075(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.323 ENERGY OUT = 137.086(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.08600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.086 ENERGY OUT = 136.182(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.423 ENERGY OUT = 137.193(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.19299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.193 ENERGY OUT = 136.289(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.523 ENERGY OUT = 137.299(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.29900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.299 ENERGY OUT = 136.396(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.623 ENERGY OUT = 137.405(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.40500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.405 ENERGY OUT = 136.502(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.723 ENERGY OUT = 137.511(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.51100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.511 ENERGY OUT = 136.609(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.823 ENERGY OUT = 137.617(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.61700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.617 ENERGY OUT = 136.715(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 147.923 ENERGY OUT = 137.724(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.72400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.724 ENERGY OUT = 136.823(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.023 ENERGY OUT = 137.830(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.83000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.830 ENERGY OUT = 136.930(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.123 ENERGY OUT = 137.936(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 137.93600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 137.936 ENERGY OUT = 137.036(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.223 ENERGY OUT = 138.042(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.04201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.042 ENERGY OUT = 137.143(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.323 ENERGY OUT = 138.148(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.14799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.148 ENERGY OUT = 137.249(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.423 ENERGY OUT = 138.254(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.25400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.254 ENERGY OUT = 137.356(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.523 ENERGY OUT = 138.360(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.36000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.360 ENERGY OUT = 137.463(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.623 ENERGY OUT = 138.466(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.46600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.466 ENERGY OUT = 137.569(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.723 ENERGY OUT = 138.573(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.57300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.573 ENERGY OUT = 137.677(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.823 ENERGY OUT = 138.679(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.67900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.679 ENERGY OUT = 137.783(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 148.923 ENERGY OUT = 138.785(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.78500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.785 ENERGY OUT = 137.890(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.023 ENERGY OUT = 138.891(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.89101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.891 ENERGY OUT = 137.996(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.123 ENERGY OUT = 138.997(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 138.99699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 138.997 ENERGY OUT = 138.103(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.223 ENERGY OUT = 139.103(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.10300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.103 ENERGY OUT = 138.210(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.323 ENERGY OUT = 139.209(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.20900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.209 ENERGY OUT = 138.316(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.423 ENERGY OUT = 139.315(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.31500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.315 ENERGY OUT = 138.423(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.523 ENERGY OUT = 139.421(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.42101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.421 ENERGY OUT = 138.529(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.623 ENERGY OUT = 139.527(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.52699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.527 ENERGY OUT = 138.636(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.723 ENERGY OUT = 139.633(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.63300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.633 ENERGY OUT = 138.742(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.823 ENERGY OUT = 139.739(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.73900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.739 ENERGY OUT = 138.849(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 149.923 ENERGY OUT = 139.845(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.84500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.845 ENERGY OUT = 138.956(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.023 ENERGY OUT = 139.951(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 139.95100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 139.951 ENERGY OUT = 139.062(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.123 ENERGY OUT = 140.057(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.05701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.057 ENERGY OUT = 139.169(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.223 ENERGY OUT = 140.163(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.16299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.163 ENERGY OUT = 139.275(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.323 ENERGY OUT = 140.269(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.26900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.269 ENERGY OUT = 139.382(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.423 ENERGY OUT = 140.375(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.37500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.375 ENERGY OUT = 139.488(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.523 ENERGY OUT = 140.481(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.48100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.481 ENERGY OUT = 139.595(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.623 ENERGY OUT = 140.587(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.58701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.587 ENERGY OUT = 139.702(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.723 ENERGY OUT = 140.693(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.69299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.693 ENERGY OUT = 139.808(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.823 ENERGY OUT = 140.799(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.79900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.799 ENERGY OUT = 139.915(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 150.923 ENERGY OUT = 140.905(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 140.90500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 140.905 ENERGY OUT = 140.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.023 ENERGY OUT = 141.011(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.01100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.011 ENERGY OUT = 140.128(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.123 ENERGY OUT = 141.117(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.11700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.117 ENERGY OUT = 140.234(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.223 ENERGY OUT = 141.222(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.22200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.222 ENERGY OUT = 140.340(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.323 ENERGY OUT = 141.328(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.32800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.328 ENERGY OUT = 140.446(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.423 ENERGY OUT = 141.434(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.43401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.434 ENERGY OUT = 140.553(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.523 ENERGY OUT = 141.540(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.53999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.540 ENERGY OUT = 140.660(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.623 ENERGY OUT = 141.646(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.64600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.646 ENERGY OUT = 140.766(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.723 ENERGY OUT = 141.752(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.75200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.752 ENERGY OUT = 140.873(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.823 ENERGY OUT = 141.858(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.85800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.858 ENERGY OUT = 140.979(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 151.923 ENERGY OUT = 141.964(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 141.96400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 141.964 ENERGY OUT = 141.086(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.023 ENERGY OUT = 142.069(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.06900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.069 ENERGY OUT = 141.191(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.123 ENERGY OUT = 142.175(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.17500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.175 ENERGY OUT = 141.298(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.223 ENERGY OUT = 142.281(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.28101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.281 ENERGY OUT = 141.404(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.323 ENERGY OUT = 142.387(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.38699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.387 ENERGY OUT = 141.511(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.423 ENERGY OUT = 142.493(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.49300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.493 ENERGY OUT = 141.618(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.523 ENERGY OUT = 142.598(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.59801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.598 ENERGY OUT = 141.723(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.623 ENERGY OUT = 142.704(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.70399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.704 ENERGY OUT = 141.830(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.723 ENERGY OUT = 142.810(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.81000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.810 ENERGY OUT = 141.936(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.823 ENERGY OUT = 142.916(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 142.91600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 142.916 ENERGY OUT = 142.043(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 152.923 ENERGY OUT = 143.022(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.02200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.022 ENERGY OUT = 142.149(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.023 ENERGY OUT = 143.127(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.12700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.127 ENERGY OUT = 142.255(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.123 ENERGY OUT = 143.233(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.23300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.233 ENERGY OUT = 142.361(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.223 ENERGY OUT = 143.339(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.33900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.339 ENERGY OUT = 142.468(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.323 ENERGY OUT = 143.445(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.44501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.445 ENERGY OUT = 142.574(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.423 ENERGY OUT = 143.550(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.55000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.550 ENERGY OUT = 142.680(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.523 ENERGY OUT = 143.656(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.65601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.656 ENERGY OUT = 142.786(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.623 ENERGY OUT = 143.762(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.76199 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.762 ENERGY OUT = 142.893(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.723 ENERGY OUT = 143.867(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.86700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.867 ENERGY OUT = 142.999(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.823 ENERGY OUT = 143.973(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 143.97301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 143.973 ENERGY OUT = 143.105(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 153.923 ENERGY OUT = 144.079(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.07899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.079 ENERGY OUT = 143.212(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.023 ENERGY OUT = 144.184(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.18401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.184 ENERGY OUT = 143.317(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.123 ENERGY OUT = 144.290(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.28999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.290 ENERGY OUT = 143.424(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.223 ENERGY OUT = 144.396(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.39600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.396 ENERGY OUT = 143.530(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.323 ENERGY OUT = 144.501(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.50101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.501 ENERGY OUT = 143.636(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.423 ENERGY OUT = 144.607(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.60699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.607 ENERGY OUT = 143.742(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.523 ENERGY OUT = 144.713(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.71300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.713 ENERGY OUT = 143.849(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.623 ENERGY OUT = 144.819(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.81900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.819 ENERGY OUT = 143.955(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.723 ENERGY OUT = 144.924(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 144.92400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 144.924 ENERGY OUT = 144.061(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.823 ENERGY OUT = 145.030(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.03000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.030 ENERGY OUT = 144.167(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 154.923 ENERGY OUT = 145.135(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.13499 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.135 ENERGY OUT = 144.273(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 155.023 ENERGY OUT = 145.241(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.24100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.241 ENERGY OUT = 144.379(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 155.123 ENERGY OUT = 145.347(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.34700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.347 ENERGY OUT = 144.486(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 155.223 ENERGY OUT = 145.452(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.45200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.452 ENERGY OUT = 144.592(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 155.323 ENERGY OUT = 145.558(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.55800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.558 ENERGY OUT = 144.698(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 155.423 ENERGY OUT = 145.663(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.66299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.663 ENERGY OUT = 144.804(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 512 STEPS ENERGY IN = 155.523 ENERGY OUT = 145.769(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.76900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.769 ENERGY OUT = 144.910(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 155.623 ENERGY OUT = 145.875(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.87500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.875 ENERGY OUT = 145.017(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 155.723 ENERGY OUT = 145.981(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 145.98100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 145.981 ENERGY OUT = 145.123(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 155.823 ENERGY OUT = 146.086(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.08600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.086 ENERGY OUT = 145.229(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 155.923 ENERGY OUT = 146.192(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.19200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.192 ENERGY OUT = 145.335(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.023 ENERGY OUT = 146.297(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.29700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.297 ENERGY OUT = 145.441(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.123 ENERGY OUT = 146.403(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.40300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.403 ENERGY OUT = 145.547(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.223 ENERGY OUT = 146.508(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.50800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.508 ENERGY OUT = 145.653(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.323 ENERGY OUT = 146.614(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.61400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.614 ENERGY OUT = 145.759(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.423 ENERGY OUT = 146.720(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.72000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.720 ENERGY OUT = 145.866(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.523 ENERGY OUT = 146.825(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.82500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.825 ENERGY OUT = 145.971(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.623 ENERGY OUT = 146.930(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 146.92999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 146.930 ENERGY OUT = 146.077(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.723 ENERGY OUT = 147.036(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.03600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.036 ENERGY OUT = 146.183(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.823 ENERGY OUT = 147.142(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.14200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.142 ENERGY OUT = 146.290(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 156.923 ENERGY OUT = 147.247(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.24699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.247 ENERGY OUT = 146.395(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.023 ENERGY OUT = 147.352(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.35201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.352 ENERGY OUT = 146.501(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.123 ENERGY OUT = 147.458(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.45799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.458 ENERGY OUT = 146.607(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.223 ENERGY OUT = 147.563(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.56300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.563 ENERGY OUT = 146.713(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.323 ENERGY OUT = 147.669(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.66901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.669 ENERGY OUT = 146.819(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.423 ENERGY OUT = 147.774(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.77400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.774 ENERGY OUT = 146.925(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.523 ENERGY OUT = 147.880(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.88000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.880 ENERGY OUT = 147.031(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.623 ENERGY OUT = 147.985(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 147.98500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 147.985 ENERGY OUT = 147.137(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.723 ENERGY OUT = 148.091(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.09100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.091 ENERGY OUT = 147.243(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.823 ENERGY OUT = 148.196(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.19600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.196 ENERGY OUT = 147.349(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 157.923 ENERGY OUT = 148.301(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.30099 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.301 ENERGY OUT = 147.454(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.023 ENERGY OUT = 148.407(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.40700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.407 ENERGY OUT = 147.561(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.123 ENERGY OUT = 148.512(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.51199 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.512 ENERGY OUT = 147.666(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.223 ENERGY OUT = 148.618(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.61800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.618 ENERGY OUT = 147.773(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.323 ENERGY OUT = 148.723(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.723 ENERGY OUT = 147.878(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.423 ENERGY OUT = 148.828(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.82800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.828 ENERGY OUT = 147.984(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.523 ENERGY OUT = 148.934(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 148.93401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 148.934 ENERGY OUT = 148.090(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.623 ENERGY OUT = 149.039(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.03900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.039 ENERGY OUT = 148.196(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.723 ENERGY OUT = 149.144(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.14400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.144 ENERGY OUT = 148.301(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.823 ENERGY OUT = 149.250(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.25000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.250 ENERGY OUT = 148.408(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 158.923 ENERGY OUT = 149.355(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.35500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.355 ENERGY OUT = 148.513(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.023 ENERGY OUT = 149.461(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.46100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.461 ENERGY OUT = 148.620(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.123 ENERGY OUT = 149.566(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.56599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.566 ENERGY OUT = 148.725(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.223 ENERGY OUT = 149.671(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.67101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.671 ENERGY OUT = 148.831(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.323 ENERGY OUT = 149.777(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.77699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.777 ENERGY OUT = 148.938(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.423 ENERGY OUT = 149.882(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.88200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.882 ENERGY OUT = 149.043(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.523 ENERGY OUT = 149.987(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 149.98700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 149.987 ENERGY OUT = 149.148(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.623 ENERGY OUT = 150.092(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.09200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.092 ENERGY OUT = 149.254(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.723 ENERGY OUT = 150.198(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.19800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.198 ENERGY OUT = 149.360(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.823 ENERGY OUT = 150.303(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.30299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.303 ENERGY OUT = 149.466(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 159.923 ENERGY OUT = 150.408(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.40800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.408 ENERGY OUT = 149.571(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.023 ENERGY OUT = 150.514(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.51401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.514 ENERGY OUT = 149.678(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.123 ENERGY OUT = 150.619(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.61900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.619 ENERGY OUT = 149.783(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.223 ENERGY OUT = 150.724(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.72400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.724 ENERGY OUT = 149.889(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.323 ENERGY OUT = 150.829(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.82899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.829 ENERGY OUT = 149.994(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.423 ENERGY OUT = 150.935(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 150.93500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 150.935 ENERGY OUT = 150.101(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.523 ENERGY OUT = 151.040(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.03999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.040 ENERGY OUT = 150.206(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.623 ENERGY OUT = 151.145(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.14500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.145 ENERGY OUT = 150.312(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.723 ENERGY OUT = 151.250(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.25000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.250 ENERGY OUT = 150.417(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.823 ENERGY OUT = 151.355(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.35500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.355 ENERGY OUT = 150.523(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 160.923 ENERGY OUT = 151.461(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.46100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.461 ENERGY OUT = 150.629(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.023 ENERGY OUT = 151.566(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.56599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.566 ENERGY OUT = 150.735(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.123 ENERGY OUT = 151.671(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.67101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.671 ENERGY OUT = 150.840(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.223 ENERGY OUT = 151.776(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.77600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.776 ENERGY OUT = 150.946(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.323 ENERGY OUT = 151.882(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.88200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.882 ENERGY OUT = 151.052(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.423 ENERGY OUT = 151.987(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 151.98700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 151.987 ENERGY OUT = 151.158(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.523 ENERGY OUT = 152.092(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.09200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.092 ENERGY OUT = 151.263(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.623 ENERGY OUT = 152.197(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.19701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.197 ENERGY OUT = 151.369(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.723 ENERGY OUT = 152.302(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.30200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.302 ENERGY OUT = 151.474(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.823 ENERGY OUT = 152.407(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.40700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.407 ENERGY OUT = 151.580(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 161.923 ENERGY OUT = 152.513(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.51300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.513 ENERGY OUT = 151.686(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.023 ENERGY OUT = 152.618(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.61800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.618 ENERGY OUT = 151.792(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.123 ENERGY OUT = 152.723(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.723 ENERGY OUT = 151.897(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.223 ENERGY OUT = 152.828(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.82800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.828 ENERGY OUT = 152.003(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.323 ENERGY OUT = 152.933(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 152.93300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 152.933 ENERGY OUT = 152.108(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.423 ENERGY OUT = 153.038(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.03799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.038 ENERGY OUT = 152.214(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.523 ENERGY OUT = 153.144(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.14400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.144 ENERGY OUT = 152.320(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.623 ENERGY OUT = 153.249(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.24899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.249 ENERGY OUT = 152.426(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.723 ENERGY OUT = 153.354(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.35400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.354 ENERGY OUT = 152.531(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.823 ENERGY OUT = 153.459(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.45900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.459 ENERGY OUT = 152.636(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 162.923 ENERGY OUT = 153.564(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.56400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.564 ENERGY OUT = 152.742(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.023 ENERGY OUT = 153.669(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.66901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.669 ENERGY OUT = 152.847(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.123 ENERGY OUT = 153.774(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.77400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.774 ENERGY OUT = 152.953(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.223 ENERGY OUT = 153.879(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.87900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.879 ENERGY OUT = 153.058(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.323 ENERGY OUT = 153.984(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 153.98399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 153.984 ENERGY OUT = 153.164(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.423 ENERGY OUT = 154.089(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.08900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.089 ENERGY OUT = 153.269(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.523 ENERGY OUT = 154.194(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.19400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.194 ENERGY OUT = 153.375(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.623 ENERGY OUT = 154.299(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.29900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.299 ENERGY OUT = 153.480(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.723 ENERGY OUT = 154.404(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.40401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.404 ENERGY OUT = 153.586(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.823 ENERGY OUT = 154.509(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.50900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.509 ENERGY OUT = 153.691(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 163.923 ENERGY OUT = 154.615(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.61501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.615 ENERGY OUT = 153.798(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.023 ENERGY OUT = 154.719(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.71899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.719 ENERGY OUT = 153.902(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.123 ENERGY OUT = 154.824(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.82401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.824 ENERGY OUT = 154.008(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.223 ENERGY OUT = 154.929(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 154.92900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 154.929 ENERGY OUT = 154.113(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.323 ENERGY OUT = 155.035(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.03500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.035 ENERGY OUT = 154.220(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.423 ENERGY OUT = 155.140(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.14000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.140 ENERGY OUT = 154.325(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.523 ENERGY OUT = 155.245(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.24500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.245 ENERGY OUT = 154.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.623 ENERGY OUT = 155.350(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.35001 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.350 ENERGY OUT = 154.536(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.723 ENERGY OUT = 155.455(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.45500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.455 ENERGY OUT = 154.641(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.823 ENERGY OUT = 155.560(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.56000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.560 ENERGY OUT = 154.747(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 164.923 ENERGY OUT = 155.664(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.66400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.664 ENERGY OUT = 154.851(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.023 ENERGY OUT = 155.769(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.76900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.769 ENERGY OUT = 154.957(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.123 ENERGY OUT = 155.874(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.87399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.874 ENERGY OUT = 155.062(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.223 ENERGY OUT = 155.979(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 155.97900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 155.979 ENERGY OUT = 155.168(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.323 ENERGY OUT = 156.084(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.08400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.084 ENERGY OUT = 155.273(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.423 ENERGY OUT = 156.189(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.18900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.189 ENERGY OUT = 155.379(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.523 ENERGY OUT = 156.294(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.29401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.294 ENERGY OUT = 155.484(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.623 ENERGY OUT = 156.399(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.39900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.399 ENERGY OUT = 155.590(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.723 ENERGY OUT = 156.504(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.50400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.504 ENERGY OUT = 155.695(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.823 ENERGY OUT = 156.609(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.60899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.609 ENERGY OUT = 155.800(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 165.923 ENERGY OUT = 156.714(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.71400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.714 ENERGY OUT = 155.906(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.023 ENERGY OUT = 156.819(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.81900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.819 ENERGY OUT = 156.011(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.123 ENERGY OUT = 156.924(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 156.92400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 156.924 ENERGY OUT = 156.117(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.223 ENERGY OUT = 157.029(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.02901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.029 ENERGY OUT = 156.222(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.323 ENERGY OUT = 157.133(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.13300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.133 ENERGY OUT = 156.327(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.423 ENERGY OUT = 157.238(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.23801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.238 ENERGY OUT = 156.432(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.523 ENERGY OUT = 157.343(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.34300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.343 ENERGY OUT = 156.538(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.623 ENERGY OUT = 157.448(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.44800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.448 ENERGY OUT = 156.643(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.723 ENERGY OUT = 157.553(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.55299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.553 ENERGY OUT = 156.749(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.823 ENERGY OUT = 157.658(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.65800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.658 ENERGY OUT = 156.854(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 166.923 ENERGY OUT = 157.763(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.76300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.763 ENERGY OUT = 156.959(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.023 ENERGY OUT = 157.868(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.86800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.868 ENERGY OUT = 157.065(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.123 ENERGY OUT = 157.972(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 157.97200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 157.972 ENERGY OUT = 157.169(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.223 ENERGY OUT = 158.077(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.07700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.077 ENERGY OUT = 157.275(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.323 ENERGY OUT = 158.182(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.18201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.182 ENERGY OUT = 157.380(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.423 ENERGY OUT = 158.287(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.28700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.287 ENERGY OUT = 157.486(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.523 ENERGY OUT = 158.392(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.39200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.392 ENERGY OUT = 157.591(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.623 ENERGY OUT = 158.497(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.49699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.497 ENERGY OUT = 157.697(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.723 ENERGY OUT = 158.601(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.60100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.601 ENERGY OUT = 157.801(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.823 ENERGY OUT = 158.706(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.70599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.706 ENERGY OUT = 157.906(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 167.923 ENERGY OUT = 158.811(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.81100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.811 ENERGY OUT = 158.012(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.023 ENERGY OUT = 158.916(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 158.91600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 158.916 ENERGY OUT = 158.117(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.123 ENERGY OUT = 159.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.02100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.021 ENERGY OUT = 158.223(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.223 ENERGY OUT = 159.125(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.12500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.125 ENERGY OUT = 158.327(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.323 ENERGY OUT = 159.230(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.23000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.230 ENERGY OUT = 158.433(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.423 ENERGY OUT = 159.335(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.33501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.335 ENERGY OUT = 158.538(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.523 ENERGY OUT = 159.440(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.44000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.440 ENERGY OUT = 158.644(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.623 ENERGY OUT = 159.544(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.54401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.544 ENERGY OUT = 158.748(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.723 ENERGY OUT = 159.649(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.64900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.649 ENERGY OUT = 158.853(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.823 ENERGY OUT = 159.754(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.75400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.754 ENERGY OUT = 158.959(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 168.923 ENERGY OUT = 159.859(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.85899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.859 ENERGY OUT = 159.064(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.023 ENERGY OUT = 159.963(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 159.96300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 159.963 ENERGY OUT = 159.169(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.123 ENERGY OUT = 160.068(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.06799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.068 ENERGY OUT = 159.274(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.223 ENERGY OUT = 160.173(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.17300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.173 ENERGY OUT = 159.380(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.323 ENERGY OUT = 160.278(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.27800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.278 ENERGY OUT = 159.485(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.423 ENERGY OUT = 160.382(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.38200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.382 ENERGY OUT = 159.590(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.523 ENERGY OUT = 160.487(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.48700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.487 ENERGY OUT = 159.695(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.623 ENERGY OUT = 160.592(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.59200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.592 ENERGY OUT = 159.800(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.723 ENERGY OUT = 160.696(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.69600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.696 ENERGY OUT = 159.905(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.823 ENERGY OUT = 160.801(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.80099 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.801 ENERGY OUT = 160.010(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 169.923 ENERGY OUT = 160.906(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 160.90601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 160.906 ENERGY OUT = 160.116(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.023 ENERGY OUT = 161.011(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.01100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.011 ENERGY OUT = 160.221(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.123 ENERGY OUT = 161.115(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.11501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.115 ENERGY OUT = 160.326(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.223 ENERGY OUT = 161.220(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.22000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.220 ENERGY OUT = 160.431(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.323 ENERGY OUT = 161.325(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.32500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.325 ENERGY OUT = 160.536(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.423 ENERGY OUT = 161.429(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.42900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.429 ENERGY OUT = 160.641(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.523 ENERGY OUT = 161.534(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.53400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.534 ENERGY OUT = 160.746(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.623 ENERGY OUT = 161.639(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.63901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.639 ENERGY OUT = 160.852(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.723 ENERGY OUT = 161.743(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.74300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.743 ENERGY OUT = 160.956(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.823 ENERGY OUT = 161.848(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.84801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.848 ENERGY OUT = 161.062(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 170.923 ENERGY OUT = 161.952(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 161.95200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 161.952 ENERGY OUT = 161.166(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.023 ENERGY OUT = 162.057(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.05701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.057 ENERGY OUT = 161.271(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.123 ENERGY OUT = 162.162(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.16200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.162 ENERGY OUT = 161.377(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.223 ENERGY OUT = 162.266(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.26601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.266 ENERGY OUT = 161.481(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.323 ENERGY OUT = 162.371(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.37100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.371 ENERGY OUT = 161.587(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.423 ENERGY OUT = 162.476(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.47600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.476 ENERGY OUT = 161.692(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.523 ENERGY OUT = 162.580(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.58000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.580 ENERGY OUT = 161.797(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.623 ENERGY OUT = 162.685(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.68500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.685 ENERGY OUT = 161.902(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.723 ENERGY OUT = 162.789(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.78900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.789 ENERGY OUT = 162.006(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.823 ENERGY OUT = 162.894(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.89400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.894 ENERGY OUT = 162.112(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 171.923 ENERGY OUT = 162.999(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 162.99899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 162.999 ENERGY OUT = 162.217(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.023 ENERGY OUT = 163.103(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.10300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.103 ENERGY OUT = 162.322(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.123 ENERGY OUT = 163.208(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.20799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.208 ENERGY OUT = 162.427(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.223 ENERGY OUT = 163.312(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.31200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.312 ENERGY OUT = 162.532(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.323 ENERGY OUT = 163.417(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.41701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.417 ENERGY OUT = 162.637(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.423 ENERGY OUT = 163.521(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.52100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.521 ENERGY OUT = 162.741(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.523 ENERGY OUT = 163.626(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.62601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.626 ENERGY OUT = 162.847(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.623 ENERGY OUT = 163.731(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.73100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.731 ENERGY OUT = 162.952(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.723 ENERGY OUT = 163.835(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.83501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.835 ENERGY OUT = 163.057(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.823 ENERGY OUT = 163.940(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 163.94000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 163.940 ENERGY OUT = 163.162(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 172.923 ENERGY OUT = 164.044(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.04401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.044 ENERGY OUT = 163.267(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.023 ENERGY OUT = 164.149(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.14900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.149 ENERGY OUT = 163.372(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.123 ENERGY OUT = 164.253(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.25301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.253 ENERGY OUT = 163.476(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.223 ENERGY OUT = 164.358(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.35800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.358 ENERGY OUT = 163.582(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.323 ENERGY OUT = 164.462(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.46201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.462 ENERGY OUT = 163.686(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.423 ENERGY OUT = 164.567(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.56700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.567 ENERGY OUT = 163.792(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.523 ENERGY OUT = 164.671(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.67101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.671 ENERGY OUT = 163.896(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.623 ENERGY OUT = 164.776(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.77600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.776 ENERGY OUT = 164.001(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.723 ENERGY OUT = 164.880(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.88000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.880 ENERGY OUT = 164.106(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.823 ENERGY OUT = 164.985(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 164.98500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 164.985 ENERGY OUT = 164.211(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 173.923 ENERGY OUT = 165.089(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.08900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.089 ENERGY OUT = 164.316(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.023 ENERGY OUT = 165.194(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.19400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.194 ENERGY OUT = 164.421(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.123 ENERGY OUT = 165.298(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.29800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.298 ENERGY OUT = 164.525(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.223 ENERGY OUT = 165.403(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.40300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.403 ENERGY OUT = 164.631(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.323 ENERGY OUT = 165.507(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.50700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.507 ENERGY OUT = 164.735(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.423 ENERGY OUT = 165.612(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.61200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.612 ENERGY OUT = 164.841(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.523 ENERGY OUT = 165.716(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.71600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.716 ENERGY OUT = 164.945(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.623 ENERGY OUT = 165.820(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.82001 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.820 ENERGY OUT = 165.050(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.723 ENERGY OUT = 165.925(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 165.92500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 165.925 ENERGY OUT = 165.155(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.823 ENERGY OUT = 166.029(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.02901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.029 ENERGY OUT = 165.259(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 174.923 ENERGY OUT = 166.134(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.13400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.134 ENERGY OUT = 165.365(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.023 ENERGY OUT = 166.238(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.23801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.238 ENERGY OUT = 165.469(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.123 ENERGY OUT = 166.343(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.34300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.343 ENERGY OUT = 165.575(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.223 ENERGY OUT = 166.447(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.44701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.447 ENERGY OUT = 165.679(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.323 ENERGY OUT = 166.551(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.55099 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.551 ENERGY OUT = 165.783(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.423 ENERGY OUT = 166.656(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.65601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.656 ENERGY OUT = 165.889(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.523 ENERGY OUT = 166.760(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.75999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.760 ENERGY OUT = 165.993(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.623 ENERGY OUT = 166.865(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.86501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.865 ENERGY OUT = 166.099(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.723 ENERGY OUT = 166.969(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 166.96899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 166.969 ENERGY OUT = 166.203(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.823 ENERGY OUT = 167.073(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.07300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.073 ENERGY OUT = 166.307(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 175.923 ENERGY OUT = 167.178(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.17799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.178 ENERGY OUT = 166.413(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.023 ENERGY OUT = 167.282(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.28200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.282 ENERGY OUT = 166.517(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.123 ENERGY OUT = 167.387(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.38699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.387 ENERGY OUT = 166.623(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.223 ENERGY OUT = 167.491(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.49100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.491 ENERGY OUT = 166.727(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.323 ENERGY OUT = 167.595(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.59500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.595 ENERGY OUT = 166.831(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.423 ENERGY OUT = 167.700(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.70000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.700 ENERGY OUT = 166.937(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.523 ENERGY OUT = 167.804(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.80400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.804 ENERGY OUT = 167.041(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.623 ENERGY OUT = 167.908(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 167.90800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 167.908 ENERGY OUT = 167.146(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.723 ENERGY OUT = 168.013(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.01300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.013 ENERGY OUT = 167.251(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.823 ENERGY OUT = 168.117(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.11700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.117 ENERGY OUT = 167.355(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 176.923 ENERGY OUT = 168.221(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.22099 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.221 ENERGY OUT = 167.460(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.023 ENERGY OUT = 168.326(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.32600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.326 ENERGY OUT = 167.565(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.123 ENERGY OUT = 168.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.42999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.430 ENERGY OUT = 167.670(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.223 ENERGY OUT = 168.534(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.53400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.534 ENERGY OUT = 167.774(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.323 ENERGY OUT = 168.639(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.63901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.639 ENERGY OUT = 167.879(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.423 ENERGY OUT = 168.743(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.74300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.743 ENERGY OUT = 167.984(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.523 ENERGY OUT = 168.847(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.84700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.847 ENERGY OUT = 168.088(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.623 ENERGY OUT = 168.952(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 168.95200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 168.952 ENERGY OUT = 168.194(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.723 ENERGY OUT = 169.056(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.05600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.056 ENERGY OUT = 168.298(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.823 ENERGY OUT = 169.160(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.16000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.160 ENERGY OUT = 168.402(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 177.923 ENERGY OUT = 169.265(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.26500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.265 ENERGY OUT = 168.508(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.023 ENERGY OUT = 169.369(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.36900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.369 ENERGY OUT = 168.612(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.123 ENERGY OUT = 169.473(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.47301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.473 ENERGY OUT = 168.717(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.223 ENERGY OUT = 169.577(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.57700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.577 ENERGY OUT = 168.821(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.323 ENERGY OUT = 169.682(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.68201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.682 ENERGY OUT = 168.926(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.423 ENERGY OUT = 169.786(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.78600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.786 ENERGY OUT = 169.031(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.523 ENERGY OUT = 169.890(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.89000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.890 ENERGY OUT = 169.135(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.623 ENERGY OUT = 169.994(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 169.99400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 169.994 ENERGY OUT = 169.240(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.723 ENERGY OUT = 170.099(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.09900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.099 ENERGY OUT = 169.345(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.823 ENERGY OUT = 170.203(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.20300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.203 ENERGY OUT = 169.449(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 178.923 ENERGY OUT = 170.307(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.30701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.307 ENERGY OUT = 169.554(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.023 ENERGY OUT = 170.411(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.41100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.411 ENERGY OUT = 169.658(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.123 ENERGY OUT = 170.516(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.51601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.516 ENERGY OUT = 169.763(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.223 ENERGY OUT = 170.620(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.62000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.620 ENERGY OUT = 169.868(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.323 ENERGY OUT = 170.724(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.72400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.724 ENERGY OUT = 169.972(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.423 ENERGY OUT = 170.828(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.82800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.828 ENERGY OUT = 170.077(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.523 ENERGY OUT = 170.933(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 170.93300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 170.933 ENERGY OUT = 170.182(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.623 ENERGY OUT = 171.037(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.03700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.037 ENERGY OUT = 170.286(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.723 ENERGY OUT = 171.141(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.14101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.141 ENERGY OUT = 170.391(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.823 ENERGY OUT = 171.245(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.24500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.245 ENERGY OUT = 170.495(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 179.923 ENERGY OUT = 171.349(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.34900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.349 ENERGY OUT = 170.600(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.023 ENERGY OUT = 171.454(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.45399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.454 ENERGY OUT = 170.705(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.123 ENERGY OUT = 171.558(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.55800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.558 ENERGY OUT = 170.809(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.223 ENERGY OUT = 171.662(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.66200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.662 ENERGY OUT = 170.914(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.323 ENERGY OUT = 171.766(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.76601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.766 ENERGY OUT = 171.018(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.423 ENERGY OUT = 171.870(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.87000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.870 ENERGY OUT = 171.122(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.523 ENERGY OUT = 171.975(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 171.97501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 171.975 ENERGY OUT = 171.228(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.623 ENERGY OUT = 172.079(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.07899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.079 ENERGY OUT = 171.332(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.723 ENERGY OUT = 172.183(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.18300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.183 ENERGY OUT = 171.437(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.823 ENERGY OUT = 172.287(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.28700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.287 ENERGY OUT = 171.541(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 180.923 ENERGY OUT = 172.391(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.39101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.391 ENERGY OUT = 171.645(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.023 ENERGY OUT = 172.495(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.49500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.495 ENERGY OUT = 171.750(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.123 ENERGY OUT = 172.599(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.59900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.599 ENERGY OUT = 171.854(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.223 ENERGY OUT = 172.704(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.70399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.704 ENERGY OUT = 171.960(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.323 ENERGY OUT = 172.808(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.80800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.808 ENERGY OUT = 172.064(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.423 ENERGY OUT = 172.912(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 172.91200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 172.912 ENERGY OUT = 172.168(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.523 ENERGY OUT = 173.016(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.01601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.016 ENERGY OUT = 172.273(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.623 ENERGY OUT = 173.120(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.12000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.120 ENERGY OUT = 172.377(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.723 ENERGY OUT = 173.224(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.22400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.224 ENERGY OUT = 172.481(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.823 ENERGY OUT = 173.328(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.32800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.328 ENERGY OUT = 172.586(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 181.923 ENERGY OUT = 173.432(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.43201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.432 ENERGY OUT = 172.690(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.023 ENERGY OUT = 173.537(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.53700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.537 ENERGY OUT = 172.796(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.123 ENERGY OUT = 173.641(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.64101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.641 ENERGY OUT = 172.900(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.223 ENERGY OUT = 173.745(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.74500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.745 ENERGY OUT = 173.004(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.323 ENERGY OUT = 173.849(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.84900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.849 ENERGY OUT = 173.109(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.423 ENERGY OUT = 173.953(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 173.95300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 173.953 ENERGY OUT = 173.213(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.523 ENERGY OUT = 174.057(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.05701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.057 ENERGY OUT = 173.317(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.623 ENERGY OUT = 174.161(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.16100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.161 ENERGY OUT = 173.422(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.723 ENERGY OUT = 174.265(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.26500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.265 ENERGY OUT = 173.526(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.823 ENERGY OUT = 174.369(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.36900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.369 ENERGY OUT = 173.631(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 182.923 ENERGY OUT = 174.473(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.47301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.473 ENERGY OUT = 173.735(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.023 ENERGY OUT = 174.577(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.57700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.577 ENERGY OUT = 173.839(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.123 ENERGY OUT = 174.681(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.68100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.681 ENERGY OUT = 173.944(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.223 ENERGY OUT = 174.786(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.78600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.786 ENERGY OUT = 174.049(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.323 ENERGY OUT = 174.890(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.89000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.890 ENERGY OUT = 174.153(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.423 ENERGY OUT = 174.994(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 174.99400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 174.994 ENERGY OUT = 174.258(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.523 ENERGY OUT = 175.098(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.09801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.098 ENERGY OUT = 174.362(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.623 ENERGY OUT = 175.202(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.20200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.202 ENERGY OUT = 174.466(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.723 ENERGY OUT = 175.306(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.30600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.306 ENERGY OUT = 174.571(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.823 ENERGY OUT = 175.410(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.41000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.410 ENERGY OUT = 174.675(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 183.923 ENERGY OUT = 175.514(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.51401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.514 ENERGY OUT = 174.780(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.023 ENERGY OUT = 175.618(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.61800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.618 ENERGY OUT = 174.884(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.123 ENERGY OUT = 175.722(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.72200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.722 ENERGY OUT = 174.988(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.223 ENERGY OUT = 175.826(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.82600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.826 ENERGY OUT = 175.093(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.323 ENERGY OUT = 175.930(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 175.92999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 175.930 ENERGY OUT = 175.197(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.423 ENERGY OUT = 176.034(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.03400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.034 ENERGY OUT = 175.301(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.523 ENERGY OUT = 176.138(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.13800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.138 ENERGY OUT = 175.406(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.623 ENERGY OUT = 176.242(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.24200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.242 ENERGY OUT = 175.510(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.723 ENERGY OUT = 176.346(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.34599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.346 ENERGY OUT = 175.615(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.823 ENERGY OUT = 176.450(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.45000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.450 ENERGY OUT = 175.719(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 184.923 ENERGY OUT = 176.554(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.55400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.554 ENERGY OUT = 175.823(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.023 ENERGY OUT = 176.658(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.65800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.658 ENERGY OUT = 175.928(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.123 ENERGY OUT = 176.762(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.76199 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.762 ENERGY OUT = 176.032(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.223 ENERGY OUT = 176.866(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.86600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.866 ENERGY OUT = 176.136(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.323 ENERGY OUT = 176.970(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 176.97000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 176.970 ENERGY OUT = 176.241(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.423 ENERGY OUT = 177.074(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.07401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.074 ENERGY OUT = 176.345(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.523 ENERGY OUT = 177.177(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.17700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.177 ENERGY OUT = 176.448(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.623 ENERGY OUT = 177.281(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.28101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.281 ENERGY OUT = 176.553(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.723 ENERGY OUT = 177.385(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.38499 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.385 ENERGY OUT = 176.657(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.823 ENERGY OUT = 177.489(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.48900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.489 ENERGY OUT = 176.762(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 185.923 ENERGY OUT = 177.593(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.59300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.593 ENERGY OUT = 176.866(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.023 ENERGY OUT = 177.697(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.69701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.697 ENERGY OUT = 176.970(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.123 ENERGY OUT = 177.801(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.80099 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.801 ENERGY OUT = 177.075(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.223 ENERGY OUT = 177.905(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 177.90500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 177.905 ENERGY OUT = 177.179(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.323 ENERGY OUT = 178.009(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.00900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.009 ENERGY OUT = 177.283(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.423 ENERGY OUT = 178.113(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.11301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.113 ENERGY OUT = 177.388(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.523 ENERGY OUT = 178.217(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.21700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.217 ENERGY OUT = 177.492(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.623 ENERGY OUT = 178.321(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.32100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.321 ENERGY OUT = 177.596(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.723 ENERGY OUT = 178.425(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.42500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.425 ENERGY OUT = 177.701(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.823 ENERGY OUT = 178.529(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.52901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.529 ENERGY OUT = 177.805(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 186.923 ENERGY OUT = 178.632(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.63200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.632 ENERGY OUT = 177.908(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.023 ENERGY OUT = 178.736(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.73599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.736 ENERGY OUT = 178.013(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.123 ENERGY OUT = 178.840(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.84000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.840 ENERGY OUT = 178.117(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.223 ENERGY OUT = 178.944(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 178.94400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 178.944 ENERGY OUT = 178.222(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.323 ENERGY OUT = 179.048(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.04800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.048 ENERGY OUT = 178.326(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.423 ENERGY OUT = 179.152(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.15199 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.152 ENERGY OUT = 178.430(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.523 ENERGY OUT = 179.256(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.25600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.256 ENERGY OUT = 178.535(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.623 ENERGY OUT = 179.360(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.36000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.360 ENERGY OUT = 178.639(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.723 ENERGY OUT = 179.464(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.46400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.464 ENERGY OUT = 178.743(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.823 ENERGY OUT = 179.567(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.56700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.567 ENERGY OUT = 178.847(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 187.923 ENERGY OUT = 179.671(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.67101 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.671 ENERGY OUT = 178.951(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.023 ENERGY OUT = 179.775(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.77499 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.775 ENERGY OUT = 179.055(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.123 ENERGY OUT = 179.879(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.87900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.879 ENERGY OUT = 179.160(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.223 ENERGY OUT = 179.983(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 179.98300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 179.983 ENERGY OUT = 179.264(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.323 ENERGY OUT = 180.087(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.08701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.087 ENERGY OUT = 179.368(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.423 ENERGY OUT = 180.191(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.19099 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.191 ENERGY OUT = 179.473(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.523 ENERGY OUT = 180.294(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.29401 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.294 ENERGY OUT = 179.576(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.623 ENERGY OUT = 180.398(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.39799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.398 ENERGY OUT = 179.680(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.723 ENERGY OUT = 180.502(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.50200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.502 ENERGY OUT = 179.785(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.823 ENERGY OUT = 180.606(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.60600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.606 ENERGY OUT = 179.889(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 188.923 ENERGY OUT = 180.710(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.71001 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.710 ENERGY OUT = 179.994(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.023 ENERGY OUT = 180.813(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.81300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.813 ENERGY OUT = 180.097(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.123 ENERGY OUT = 180.917(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 180.91701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 180.917 ENERGY OUT = 180.201(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.223 ENERGY OUT = 181.021(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.02100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.021 ENERGY OUT = 180.306(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.323 ENERGY OUT = 181.125(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.12500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.125 ENERGY OUT = 180.410(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.423 ENERGY OUT = 181.229(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.22900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.229 ENERGY OUT = 180.514(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.523 ENERGY OUT = 181.333(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.33299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.333 ENERGY OUT = 180.619(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.623 ENERGY OUT = 181.436(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.43600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.436 ENERGY OUT = 180.722(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.723 ENERGY OUT = 181.540(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.53999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.540 ENERGY OUT = 180.826(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.823 ENERGY OUT = 181.644(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.64400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.644 ENERGY OUT = 180.931(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 189.923 ENERGY OUT = 181.748(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.74800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.748 ENERGY OUT = 181.035(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.023 ENERGY OUT = 181.851(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.85100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.851 ENERGY OUT = 181.138(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.123 ENERGY OUT = 181.955(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 181.95500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 181.955 ENERGY OUT = 181.243(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.223 ENERGY OUT = 182.059(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.05901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.059 ENERGY OUT = 181.347(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.323 ENERGY OUT = 182.163(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.16299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.163 ENERGY OUT = 181.451(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.423 ENERGY OUT = 182.267(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.26700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.267 ENERGY OUT = 181.556(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.523 ENERGY OUT = 182.370(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.37000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.370 ENERGY OUT = 181.659(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.623 ENERGY OUT = 182.474(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.47400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.474 ENERGY OUT = 181.763(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.723 ENERGY OUT = 182.578(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.57800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.578 ENERGY OUT = 181.868(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.823 ENERGY OUT = 182.682(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.68201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.682 ENERGY OUT = 181.972(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 190.923 ENERGY OUT = 182.785(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.78500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.785 ENERGY OUT = 182.075(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.023 ENERGY OUT = 182.889(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.88901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.889 ENERGY OUT = 182.180(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.123 ENERGY OUT = 182.993(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 182.99300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 182.993 ENERGY OUT = 182.284(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.223 ENERGY OUT = 183.097(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.09700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.097 ENERGY OUT = 182.388(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.323 ENERGY OUT = 183.200(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.20000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.200 ENERGY OUT = 182.492(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.423 ENERGY OUT = 183.304(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.30400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.304 ENERGY OUT = 182.596(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.523 ENERGY OUT = 183.408(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.40800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.408 ENERGY OUT = 182.700(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.623 ENERGY OUT = 183.511(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.51100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.511 ENERGY OUT = 182.804(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.723 ENERGY OUT = 183.615(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.61501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.615 ENERGY OUT = 182.908(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.823 ENERGY OUT = 183.719(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.71899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.719 ENERGY OUT = 183.012(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 191.923 ENERGY OUT = 183.823(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.823 ENERGY OUT = 183.117(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.023 ENERGY OUT = 183.926(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 183.92599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 183.926 ENERGY OUT = 183.220(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.123 ENERGY OUT = 184.030(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.03000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.030 ENERGY OUT = 183.324(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.223 ENERGY OUT = 184.134(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.13400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.134 ENERGY OUT = 183.429(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.323 ENERGY OUT = 184.237(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.23700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.237 ENERGY OUT = 183.532(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.423 ENERGY OUT = 184.341(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.34100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.341 ENERGY OUT = 183.636(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.523 ENERGY OUT = 184.445(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.44501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.445 ENERGY OUT = 183.741(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.623 ENERGY OUT = 184.548(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.54800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.548 ENERGY OUT = 183.844(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.723 ENERGY OUT = 184.652(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.65199 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.652 ENERGY OUT = 183.948(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.823 ENERGY OUT = 184.756(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.75600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.756 ENERGY OUT = 184.053(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 192.923 ENERGY OUT = 184.859(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.85899 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.859 ENERGY OUT = 184.156(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.023 ENERGY OUT = 184.963(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 184.96300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 32 STEPS ENERGY IN = 184.963 ENERGY OUT = 184.260(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.123 ENERGY OUT = 185.067(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.06700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.067 ENERGY OUT = 184.365(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.223 ENERGY OUT = 185.170(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.17000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.170 ENERGY OUT = 184.468(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.323 ENERGY OUT = 185.274(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.27400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.274 ENERGY OUT = 184.573(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.423 ENERGY OUT = 185.378(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.37801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.378 ENERGY OUT = 184.677(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.523 ENERGY OUT = 185.481(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.48100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.481 ENERGY OUT = 184.780(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.623 ENERGY OUT = 185.585(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.58501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.585 ENERGY OUT = 184.884(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.723 ENERGY OUT = 185.689(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.68900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.689 ENERGY OUT = 184.989(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.823 ENERGY OUT = 185.792(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.79201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.792 ENERGY OUT = 185.092(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 193.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 193.923 ENERGY OUT = 185.896(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 185.89600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 185.896 ENERGY OUT = 185.196(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.023 ENERGY OUT = 186.000(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.00000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.000 ENERGY OUT = 185.301(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.123 ENERGY OUT = 186.103(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.10300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.103 ENERGY OUT = 185.404(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.223 ENERGY OUT = 186.207(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.20700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.207 ENERGY OUT = 185.508(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.323 ENERGY OUT = 186.310(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.31000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.310 ENERGY OUT = 185.612(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.423 ENERGY OUT = 186.414(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.41400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.414 ENERGY OUT = 185.716(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.523 ENERGY OUT = 186.518(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.51801 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.518 ENERGY OUT = 185.820(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.623 ENERGY OUT = 186.621(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.62100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.621 ENERGY OUT = 185.924(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.723 ENERGY OUT = 186.725(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.72501 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.725 ENERGY OUT = 186.028(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.823 ENERGY OUT = 186.828(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.82800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.828 ENERGY OUT = 186.131(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 194.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 194.923 ENERGY OUT = 186.932(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 186.93201 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 186.932 ENERGY OUT = 186.236(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.023 ENERGY OUT = 187.036(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.03600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.036 ENERGY OUT = 186.340(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.123 ENERGY OUT = 187.139(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.13901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.139 ENERGY OUT = 186.443(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.223 ENERGY OUT = 187.243(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.24300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.243 ENERGY OUT = 186.548(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.323 ENERGY OUT = 187.346(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.34599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.346 ENERGY OUT = 186.651(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.423 ENERGY OUT = 187.450(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.45000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.450 ENERGY OUT = 186.755(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.523 ENERGY OUT = 187.554(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.55400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.554 ENERGY OUT = 186.860(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.623 ENERGY OUT = 187.657(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.65700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.657 ENERGY OUT = 186.963(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.723 ENERGY OUT = 187.761(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.76100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.761 ENERGY OUT = 187.067(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.823 ENERGY OUT = 187.864(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.86400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.864 ENERGY OUT = 187.171(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 195.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 195.923 ENERGY OUT = 187.968(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 187.96800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 187.968 ENERGY OUT = 187.275(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.023 ENERGY OUT = 188.071(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.07100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.071 ENERGY OUT = 187.378(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.123 ENERGY OUT = 188.175(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.17500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.175 ENERGY OUT = 187.483(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.223 ENERGY OUT = 188.279(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.27901 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.279 ENERGY OUT = 187.587(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.323 ENERGY OUT = 188.382(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.38200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.382 ENERGY OUT = 187.690(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.423 ENERGY OUT = 188.486(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.48599 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.486 ENERGY OUT = 187.795(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.523 ENERGY OUT = 188.589(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.58900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.589 ENERGY OUT = 187.898(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.623 ENERGY OUT = 188.693(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.69299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.693 ENERGY OUT = 188.002(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.723 ENERGY OUT = 188.796(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.79601 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.796 ENERGY OUT = 188.106(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.823 ENERGY OUT = 188.900(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 188.89999 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 188.900 ENERGY OUT = 188.210(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 196.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 196.923 ENERGY OUT = 189.003(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.00301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.003 ENERGY OUT = 188.313(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.023 ENERGY OUT = 189.107(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.10699 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.107 ENERGY OUT = 188.418(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.123 ENERGY OUT = 189.210(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.21001 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.210 ENERGY OUT = 188.521(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.223 ENERGY OUT = 189.314(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.31400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.314 ENERGY OUT = 188.625(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.323 ENERGY OUT = 189.417(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.41701 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.417 ENERGY OUT = 188.729(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.423 ENERGY OUT = 189.521(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.52100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.521 ENERGY OUT = 188.833(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.523 ENERGY OUT = 189.624(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.62399 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.624 ENERGY OUT = 188.936(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.623 ENERGY OUT = 189.728(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.72800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.728 ENERGY OUT = 189.040(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.723 ENERGY OUT = 189.831(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.83099 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.831 ENERGY OUT = 189.144(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.823 ENERGY OUT = 189.935(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 189.93500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 189.935 ENERGY OUT = 189.248(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 197.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 197.923 ENERGY OUT = 190.038(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.03799 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.038 ENERGY OUT = 189.351(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.023 ENERGY OUT = 190.142(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.14200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.142 ENERGY OUT = 189.456(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.123 ENERGY OUT = 190.245(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.24500 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.245 ENERGY OUT = 189.559(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.223 ENERGY OUT = 190.349(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.34900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.349 ENERGY OUT = 189.663(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.323 ENERGY OUT = 190.452(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.45200 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.452 ENERGY OUT = 189.767(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.423 ENERGY OUT = 190.556(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.55600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.556 ENERGY OUT = 189.871(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.523 ENERGY OUT = 190.659(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.65900 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.659 ENERGY OUT = 189.974(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.623 ENERGY OUT = 190.763(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.76300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.763 ENERGY OUT = 190.079(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.723 ENERGY OUT = 190.866(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.86600 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.866 ENERGY OUT = 190.182(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.823 ENERGY OUT = 190.970(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 190.97000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 190.970 ENERGY OUT = 190.286(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 198.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 198.923 ENERGY OUT = 191.073(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.07300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.073 ENERGY OUT = 190.390(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.02299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.023 ENERGY OUT = 191.177(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.17700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.177 ENERGY OUT = 190.494(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.12300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.123 ENERGY OUT = 191.280(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.28000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.280 ENERGY OUT = 190.597(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.22301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.223 ENERGY OUT = 191.383(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.38300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.383 ENERGY OUT = 190.701(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.32300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.323 ENERGY OUT = 191.487(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.48700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.487 ENERGY OUT = 190.805(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.42300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.423 ENERGY OUT = 191.590(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.59000 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.590 ENERGY OUT = 190.908(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.52299 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.523 ENERGY OUT = 191.694(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.69400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.694 ENERGY OUT = 191.012(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.62300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.623 ENERGY OUT = 191.797(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.79700 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.797 ENERGY OUT = 191.116(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.72301 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.723 ENERGY OUT = 191.901(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 191.90100 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 191.901 ENERGY OUT = 191.220(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.82300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.823 ENERGY OUT = 192.004(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.00400 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 192.004 ENERGY OUT = 191.323(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 199.92300 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2562E+03 + THICKNESS = 0.1100E+00 CM OR 0.4331E-01 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.25619E+03 MG/CMSQ + CALC IN- 256 STEPS ENERGY IN = 199.923 ENERGY OUT = 192.108(MEV) + + + + + + + PASSAGE OF CHARGED PARTICLE THROUGH ABSORBER SANDWICH + + + + AP = 3. ZP = 2. INITIAL ENERGY = 192.10800 + + + ABSORBER SANDWICH CONTAINS - 1 LAYERS + + + + + LAYER # 1 - SOLID ABSORBER - AREAL DENSITY = 0.2189E+02 + THICKNESS = 0.9400E-02 CM OR 0.3701E-02 INCH DENSITY = 0.233E+01 G/CM3 + A = 28. Z = 14. AREAL DENSITY (PARTIAL) = 0.21893E+02 MG/CMSQ + CALC IN- 16 STEPS ENERGY IN = 192.108 ENERGY OUT = 191.428(MEV) diff --git a/eloss_calculations/stopit/filtered.out b/eloss_calculations/stopit/filtered.out new file mode 100644 index 0000000..39c20fa --- /dev/null +++ b/eloss_calculations/stopit/filtered.out @@ -0,0 +1,6 @@ +Charged particle has Z = 2. A = 4. Initialenergy = 0.132 MeV. +Energy lost in layer = 0.132 MeV +Energy remaining = 0.000 MeV +Charged particle has Z = 2. A = 4. Initialenergy = 10.132 MeV. +Energy lost in layer = 10.133 MeV +Energy remaining = 0.000 MeV diff --git a/eloss_calculations/stopit/outfile.out b/eloss_calculations/stopit/outfile.out new file mode 100644 index 0000000..bb48deb --- /dev/null +++ b/eloss_calculations/stopit/outfile.out @@ -0,0 +1,50 @@ +4 4 + + +Charged particle has Z = 2. A = 4. Initialenergy = 0.132 MeV. + + +Absorber contains 1 layers. + + +Layer # 1 - Solid Absorber +Density = 0.2329E+01 g/cm3 Thickness = 0.2329E+02 mg/cm2 +Z = 14. A = 28. Atoms per molecule = 1. +Energy lost in layer = 0.132 MeV + +Energy remaining = 0.000 MeV + +Output also written to stopit.log + + 1 define stopee + 2 define absorber + 3 edit absorber + 4 run with current parameters + 5 find thickness of absorber to stop the stopee + 6 print status of data + 7 stop +4 4 + + +Charged particle has Z = 2. A = 4. Initialenergy = 10.132 MeV. + + +Absorber contains 1 layers. + + +Layer # 1 - Solid Absorber +Density = 0.2329E+01 g/cm3 Thickness = 0.2329E+02 mg/cm2 +Z = 14. A = 28. Atoms per molecule = 1. +Energy lost in layer = 10.133 MeV + +Energy remaining = 0.000 MeV + +Output also written to stopit.log + + 1 define stopee + 2 define absorber + 3 edit absorber + 4 run with current parameters + 5 find thickness of absorber to stop the stopee + 6 print status of data + 7 stop diff --git a/eloss_calculations/stopit/script.exp b/eloss_calculations/stopit/script.exp new file mode 100755 index 0000000..e1b67cf --- /dev/null +++ b/eloss_calculations/stopit/script.exp @@ -0,0 +1,106 @@ +#!/usr/bin/expect -f +# +set timeout -1 +spawn ./a.out +match_max 100000 +expect -exact "\r + 1 define stopee\r + 2 define absorber\r + 3 edit absorber\r + 4 run with current parameters\r + 5 find thickness of absorber to stop the stopee\r + 6 print status of data\r + 7 stop\r +" +send -- "1\r" +expect -exact "1\r + Enter Z and A of stopee.\r +" +send -- "2\r" +expect -exact "2\r +" +send -- "4\r" +expect -exact "4\r + Enter energy in MeV.\r +" +send -- "5.486\r" +expect -exact "5.486\r +\r + 1 define stopee\r + 2 define absorber\r + 3 edit absorber\r + 4 run with current parameters\r + 5 find thickness of absorber to stop the stopee\r + 6 print status of data\r + 7 stop\r +" +send -- "2\r" +expect -exact "2\r +\r + How many stopping layers are there in the absorber?\r +" +send -- "1\r" +expect -exact "1\r +\r +Is layer 1 a solid, gas, or standardized medium?\r +(0 = solid, 1 = gas, 2 = standardized medium)\r +(Standardized media are: CO2, Si, C \[graphite\], C4H10, CF4,\r +CH2, CD2, He, and H2)\r +" +send -- "2\r" +expect -exact "2\r +Which standardized medium for layer 1?\r +1: CO2\r +2: Si\r +3: C (graphite)\r +4: C4H10\r +5: CF4\r +6: CH2\r +7: CD2\r +8: He-gas\r +9: H2-gas\r +" +send -- "2\r" +expect -exact "2\r +Enter thickness(microns) for layer 1\r +" +send -- "100\r" +expect -exact "100\r +\r + 1 define stopee\r + 2 define absorber\r + 3 edit absorber\r + 4 run with current parameters\r + 5 find thickness of absorber to stop the stopee\r + 6 print status of data\r + 7 stop\r +" +send -- "4\r" +expect -exact "4\r +\r +\r +Charged particle has Z = 2. A = 4. Initialenergy = 5.486 MeV.\r +\r +\r +Absorber contains 1 layers.\r +\r +\r +Layer # 1 - Solid Absorber\r +Density = 0.2329E+01 g/cm3 Thickness = 0.2329E+02 mg/cm2\r +Z = 14. A = 28. Atoms per molecule = 1.\r +Energy lost in layer = 5.486 MeV\r +\r +Energy remaining = 0.000 MeV\r +\r +Output also written to stopit.log\r +\r + 1 define stopee\r + 2 define absorber\r + 3 edit absorber\r + 4 run with current parameters\r + 5 find thickness of absorber to stop the stopee\r + 6 print status of data\r + 7 stop\r +" +send -- "7\r" +expect eof diff --git a/eloss_calculations/stopit/stopit.expect b/eloss_calculations/stopit/stopit.expect new file mode 100755 index 0000000..927c03b --- /dev/null +++ b/eloss_calculations/stopit/stopit.expect @@ -0,0 +1,106 @@ +#!/usr/bin/expect -f +# +# This Expect script was generated by autoexpect on Sat Jan 31 17:06:49 2026 +# Expect and autoexpect were both written by Don Libes, NIST. +# +# Note that autoexpect does not guarantee a working script. It +# necessarily has to guess about certain things. Two reasons a script +# might fail are: +# +# 1) timing - A surprising number of programs (rn, ksh, zsh, telnet, +# etc.) and devices discard or ignore keystrokes that arrive "too +# quickly" after prompts. If you find your new script hanging up at +# one spot, try adding a short sleep just before the previous send. +# Setting "force_conservative" to 1 (see below) makes Expect do this +# automatically - pausing briefly before sending each character. This +# pacifies every program I know of. The -c flag makes the script do +# this in the first place. The -C flag allows you to define a +# character to toggle this mode off and on. + +set force_conservative 0 ;# set to 1 to force conservative mode even if + ;# script wasn't run conservatively originally +if {$force_conservative} { + set send_slow {1 .1} + proc send {ignore arg} { + sleep .1 + exp_send -s -- $arg + } +} + +# +# 2) differing output - Some programs produce different output each time +# they run. The "date" command is an obvious example. Another is +# ftp, if it produces throughput statistics at the end of a file +# transfer. If this causes a problem, delete these patterns or replace +# them with wildcards. An alternative is to use the -p flag (for +# "prompt") which makes Expect only look for the last line of output +# (i.e., the prompt). The -P flag allows you to define a character to +# toggle this mode off and on. +# +# Read the man page for more info. +# +# -Don + + +set timeout -1 +spawn ./a.out +match_max 100000 +expect "* 7 stop\r +" +send -- "1\r" +expect -exact "1\r + Enter Z and A of stopee.\r +" +send -- "4" +expect -exact " " +send -- "2\r" +expect -exact "2\r +" +send -- "4\r" +expect -exact "4\r + Enter energy in MeV.\r +" +send -- "5.486\r" +expect -exact "5.486\r +\r + 1 define stopee\r + 2 define absorber\r + 3 edit absorber\r + 4 run with current parameters\r + 5 find thickness of absorber to stop the stopee\r + 6 print status of data\r + 7 stop\r +" +send -- "2\r" + +expect "*How many stopping layers are there in the absorber?\r" +send -- "1\r" + +expect "*CH2, CD2, He, and H2)\r" +send -- "2\r" + +expect "*Which standardized medium for layer 1?\r +1: CO2\r +2: Si\r +3: C (graphite)\r +4: C4H10\r +5: CF4\r +6: CH2\r +7: CD2\r +8: He-gas\r +9: H2-gas\r +" +send -- "2\r" +expect " +* Enter thickness(microns) for layer 1\r +" +send -- "100\r" +expect " +* 7 stop\r +" +send -- "4\r" +expect " +* 7 stop\r +" +send -- "7\r" +expect eof diff --git a/eloss_calculations/stopit/stopit2.for b/eloss_calculations/stopit/stopit2.for new file mode 100755 index 0000000..be1d2d4 --- /dev/null +++ b/eloss_calculations/stopit/stopit2.for @@ -0,0 +1,1057 @@ + PROGRAM stopit + +C +C PROGRAM DESCRIPTION: +C +C Program calculates energy loss in absorber sandwich. Uses energy +C routine "absorb.for" obtained from Dan Shapira who obtained it from +C somebody in Germany. I don't know - it works! +C +C +C The the program can be compiled using the command +C g77 stopit.for desorb.for -o stopit +C or, for more recent compilers +C gfortran stopit.for desorb.for -o stopit + +c +c +C +C AUTHORS: +C +C Dan Bardayan +C Jonathan Wheeler +C Patrick O'Malleyst +C S.D. Pain +C +C CREATION DATE: 12/23/97 +C +C +C C H A N G E L O G +C +C Date | Name | Description +C ----------------+------------------+----------------------------------------- +C 12/23/97 | Dan Bardayan | Creation of the program +C 10/03/03 | Dan Bardayan | Modified to compile w/ g77 +C 05/27/11 | Jonathan Wheeler| Modified to include standardized media +C | | and to find the thickness required to +C | | stop a "stopee" +C 6/4/2020 | S.D. Pain | Modified to correct unset molar +C | | concentration of second element in +C | | gas layers for standard materials +C | | Corrected CD2 density from 0.93 to 1.063 g/cm3 +C ----------------+------------------+----------------------------------------- +C ----------------+------------------+----------------------------------------- +C + IMPLICIT NONE + + INTEGER i, j, k,imm, ism, iedit, issm + integer ianz, ianzi, ianzide + integer isg,inn + integer stdm, siupb, soupb, gaupb + +c stdm: index for standard media + +c imm: which main menu item we are on +c ism: which sub menu item we are on +c iedit: which layer to edit +c ianz : # of energy loss layers +c ianzi : index of last layer in which the energy of the pariticle +c is not recorded - don't blame me for this vague description +c i got it straight from desorb.for- i always set it to 2 +c ianzide : element # for DE calculation- i always set it to 1 +c isg(i): 0,1-0 means ith layer is solid,1 means ith layer is gas +c inn(i): no. of elements in ith layer + +c sithk: thickness in microns of standard silicon +c tethk: test thickness for iteration purposes +c error: error in iteration thickness for bisection method + + + real den, thk,prs,xln,elnum,concn + real anumb, znumb + real arden, prden, prthk + real z, a, energy, loste(19),zp, edep + real sithk, tethk, error + +c z : proton number of stopee +c a : mass number of stopee +c energy: energy of stopee in MeV +c den(i) : density (g/cm3) of ith layer-only for solid +c thk(i): thickness (mg/cm3) of ith layer-only for solid +c prs(i): pressure (torr) of ith layer-only for gas +c xln(i): thickness (cm) of ith layer-only for gas +c elnum(i,j):# atoms of jth element in ith layer per molecule +c concn(i,j): concentration(molar) j element in ith layer = 1 usually +c anumb(i,j): atomic mass in amu for j element in ith layer +c znumb(i,j): atomic no. for jth element in ith layer +c loste(i):energy lost in ith layer +c edep: energy deposited in absorber = sum(loste) + + COMMON ISG(19),INN(19) + + ,DEN(19),THK(19),PRS(19),XLN(19),ARDEN(19) + + ,ZNUMB(19,4),ANUMB(19,4),ELNUM(19,4),CONCN(19,4) + + ,PRDEN(19,4),PRTHK(19,4) + + + open(unit=7,file='stopit.log',status='unknown') + +c define some initial values in case the program is run before all the +c important parameters are defined + + ianz = 1 + ianzi = 2 + ianzide = 1 + isg(1) = 1 + inn(1) = 1 + stdm = 1 + sithk = 10. + z = 1. + a = 1. + energy = 10. + den(1) = 1.0 + thk(1) = 0.1 + prs(1) = 10. + xln(1) = 10. + elnum(1,1) = 1. + concn(1,1) = 1. + anumb(1,1) = 12. + znumb(1,1) = 6. + +c For finding thicknesses, upper bounds need to be set. +c Silicon upper bound in microns + siupb = 1500 +c Other solids' upper bound in mg/cm2 + soupb = 1000 +c Gas upper bound in cm + gaupb = 100 + +c This is the control portion of the program + +10 write(6,15) +15 format(/' 1 define stopee'/ + * ' 2 define absorber'/ + * ' 3 edit absorber'/ + * ' 4 run with current parameters'/ + * ' 5 find thickness of absorber to stop the stopee'/ + * ' 6 print status of data'/ + * ' 7 stop') + read(5,*)imm + + if(imm.eq.1)then + goto 100 + elseif(imm.eq.2)then + goto 200 + elseif(imm.eq.3)then + goto 300 + elseif(imm.eq.4)then + goto 400 +c This section was editted to add a new function, it's easier to +c have a discontinuity in labels than to relabel everything. + elseif(imm.eq.5)then + goto 600 + elseif(imm.eq.6)then + goto 500 + elseif(imm.eq.7)then + goto 1000 + else + goto 10 + endif + +c Define stopee +100 write(6,*)'Enter Z and A of stopee.' + read(5,*)z,a + write(6,*)'Enter energy in MeV.' + read(5,*)energy + goto 10 + +c Define absorber +200 write(6,*) + write(6,*)'How many stopping layers are there in the absorber?' + read(5,*)ianz + + do i = 1, ianz +201 write(6,210)i + read(5,*)isg(i) + + if(isg(i).eq.0)then + write(6,220)i + read(5,*)den(i),thk(i) + elseif(isg(i).eq.1)then + write(6,230)i + read(5,*)prs(i),xln(i) + elseif(isg(i).eq.2)then + write(6,260)i + read(5,*)stdm + if(stdm.eq.1)then + write(6,230)i + read(5,*)prs(i),xln(i) +c CO2 standardized medium + isg(i) = 1 + inn(i) = 2 + znumb(i,1)=6 + znumb(i,2)=8 + anumb(i,1)=12 + anumb(i,2)=16 + elnum(i,1)=1 + elnum(i,2)=2 + concn(i,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(i,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 202 + elseif(stdm.eq.2)then + write(6,221)i + read(5,*)sithk +c Si standardized medium + isg(i) = 0 + den(i) = 2.329 + thk(i) = 0.2329*sithk + inn(i) = 1 + znumb(i,1)=14 + anumb(i,1)=28 + elnum(i,1)=1 + goto 202 + elseif(stdm.eq.3)then + write(6,222)i + read(5,*)thk(i) +c C (graphite) standardized medium + isg(i) = 0 + den(i) = 2.267 + inn(i) = 1 + znumb(i,1)=6 + anumb(i,1)=12 + elnum(i,1)=1 + goto 202 + elseif(stdm.eq.4)then + write(6,230)i + read(5,*)prs(i),xln(i) +c C4H10 standardized medium + isg(i) = 1 + inn(i) = 2 + znumb(i,1)=6.0 + znumb(i,2)=1.0 + anumb(i,1)=12.0 + anumb(i,2)=1.0 + elnum(i,1)=4.0 + elnum(i,2)=10.0 + concn(i,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(i,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 202 + elseif(stdm.eq.5)then + write(6,230)i + read(5,*)prs(i),xln(i) +c CF4 standardized medium + isg(i) = 1 + inn(i) = 2 + znumb(i,1)=6 + znumb(i,2)=9 + anumb(i,1)=12 + anumb(i,2)=19 + elnum(i,1)=1 + elnum(i,2)=4 + concn(i,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(i,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 202 + elseif(stdm.eq.6)then + write(6,222)i + read(5,*)thk(i) +c CH2 standardized medium + isg(i) = 0 + inn(i) = 2 + den(i) = 0.94 + znumb(i,1)=6 + znumb(i,2)=1 + anumb(i,1)=12 + anumb(i,2)=1 + elnum(i,1)=1 + elnum(i,2)=2 + goto 202 + elseif(stdm.eq.7)then + write(6,222)i + read(5,*)thk(i) +c CD2 standardized medium + isg(i) = 0 + inn(i) = 2 + den(i) = 1.063 !Changed 6/4/2020 by SDP to correct CD2 density from 0.93 + znumb(i,1)=6 + znumb(i,2)=1 + anumb(i,1)=12 + anumb(i,2)=2 + elnum(i,1)=1 + elnum(i,2)=2 + goto 202 + elseif(stdm.eq.8)then + write(6,230)i + read(5,*)prs(i),xln(i) +c helium gas standardized medium + isg(i) = 1 + inn(i) = 1 + znumb(i,1)=2 + anumb(i,1)=4 + elnum(i,1)=1 + concn(i,1)=1 !Added 6/4/2020 by SDP for explicit completeness + goto 202 + elseif(stdm.eq.9)then + write(6,230)i + read(5,*)prs(i),xln(i) +c hydrogen gas standardized medium + isg(i) = 1 + inn(i) = 1 + znumb(i,1)=1 + anumb(i,1)=1 + elnum(i,1)=2 + concn(i,1)=1 !Added 6/4/2020 by SDP for explicit completeness + goto 202 + else + goto 201 + endif + else + goto 201 + endif + + write(6,240)i + read(5,*)inn(i) + + do j = 1, inn(i) + write(6,250)i,j + read(5,*)znumb(i,j),anumb(i,j), elnum(i,j) + concn(i,j)=1. + enddo + +202 j = 1 + + enddo + + goto 10 + +210 format(/'Is layer ',I2,' a solid, gas, or standardized medium?', + +/'(0 = solid, 1 = gas, 2 = standardized medium)', + +/'(Standardized media are: CO2, Si, C [graphite], C4H10, CF4,', + +/'CH2, CD2, He, and H2)') +220 format('Enter density(g/cm3) and thickness(mg/cm2) for layer ',I2) +221 format('Enter thickness(microns) for layer ',I2) +222 format('Enter thickness(mg/cm2) for layer ',I2) +230 format('Enter pressure(Torr) and length(cm) for layer ',I2) +240 format('How many elements are in layer ', I2 ,'?') +250 format('For layer ',I2,' ,element ',I2,' - enter Z, A, and the + + number of atoms per molecule. ') +260 format('Which standardized medium for layer ', I2, '?', + +/'1: CO2', + +/'2: Si', + +/'3: C (graphite)', + +/'4: C4H10', + +/'5: CF4', + +/'6: CH2', + +/'7: CD2', + +/'8: He-gas', + +/'9: H2-gas') + +c Edit absorber +300 write(6,301) + read(5,*)ism +301 format(/' 1 edit layer'/ + * ' 2 add layer onto end of absorber'/ + * ' 3 add new layer in front of absorber'/ + * ' 4 return to main menu') + + if(ism.eq.1)then + goto 310 + elseif(ism.eq.2)then + goto 340 + elseif(ism.eq.3)then + goto 360 + elseif(ism.eq.4)then + goto 10 + else + goto 300 + endif + +c Edit layer +310 write(6,311) + read(5,*)iedit +311 format(/'Which layer would you like to edit?') + +312 write(6,313) + read(5,*)issm +313 format(/' 1 change state, density, thickness, etc...'/ + * ' 2 change elemental composition'/ + * ' 3 go back to previous menu'/) + + if(issm.eq.1)then + goto 315 + elseif(issm.eq.2)then + goto 320 + elseif(issm.eq.3)then + goto 300 + else + goto 312 + endif + +315 write(6,210)iedit + read(5,*)isg(iedit) + + if(isg(iedit).eq.0)then + write(6,220)iedit + read(5,*)den(iedit),thk(iedit) + elseif(isg(iedit).eq.1)then + write(6,230)iedit + read(5,*)prs(iedit),xln(iedit) + elseif(isg(iedit).eq.2)then + write(6,260)iedit + read(5,*)stdm + if(stdm.eq.1)then + write(6,230)iedit + read(5,*)prs(iedit),xln(iedit) +c CO2 standardized medium + isg(iedit) = 1 + inn(iedit) = 2 + znumb(iedit,1)=6 + znumb(iedit,2)=8 + anumb(iedit,1)=12 + anumb(iedit,2)=16 + elnum(iedit,1)=1 + elnum(iedit,2)=2 + concn(iedit,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(iedit,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 312 + elseif(stdm.eq.2)then + write(6,221)iedit + read(5,*)sithk +c Si standardized medium + isg(iedit) = 0 + den(iedit) = 2.329 + thk(iedit) = 0.2329*sithk + inn(iedit) = 1 + znumb(iedit,1)=14 + anumb(iedit,1)=28 + elnum(iedit,1)=1 + goto 312 + elseif(stdm.eq.3)then + write(6,222)iedit + read(5,*)thk(iedit) +c C (graphite) standardized medium + isg(iedit) = 0 + den(iedit) = 2.267 + inn(iedit) = 1 + znumb(iedit,1)=6 + anumb(iedit,1)=12 + elnum(iedit,1)=1 + goto 312 + elseif(stdm.eq.4)then + write(6,230)iedit + read(5,*)prs(iedit),xln(iedit) +c C4H10 standardized medium + isg(iedit) = 1 + inn(iedit) = 2 + znumb(iedit,1)=6 + znumb(iedit,2)=1 + anumb(iedit,1)=12 + anumb(iedit,2)=1 + elnum(iedit,1)=4 + elnum(iedit,2)=10 + concn(iedit,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(iedit,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 312 + elseif(stdm.eq.5)then + write(6,230)iedit + read(5,*)prs(iedit),xln(iedit) +c CF4 standardized medium + isg(iedit) = 1 + inn(iedit) = 2 + znumb(iedit,1)=6 + znumb(iedit,2)=9 + anumb(iedit,1)=12 + anumb(iedit,2)=19 + elnum(iedit,1)=1 + elnum(iedit,2)=4 + concn(iedit,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(iedit,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 312 + elseif(stdm.eq.6)then + write(6,222)iedit + read(5,*)thk(iedit) +c CH2 standardized medium + isg(iedit) = 0 + inn(iedit) = 2 + den(iedit) = 0.94 + znumb(iedit,1)=6 + znumb(iedit,2)=1 + anumb(iedit,1)=12 + anumb(iedit,2)=1 + elnum(iedit,1)=1 + elnum(iedit,2)=2 + goto 312 + elseif(stdm.eq.7)then + write(6,222)iedit + read(5,*)thk(iedit) +c CD2 standardized medium + isg(iedit) = 0 + inn(iedit) = 2 + den(iedit) = 1.063 !Changed 6/4/2020 by SDP to correct CD2 density from 0.93 + znumb(iedit,1)=6 + znumb(iedit,2)=1 + anumb(iedit,1)=12 + anumb(iedit,2)=2 + elnum(iedit,1)=1 + elnum(iedit,2)=2 + goto 312 + elseif(stdm.eq.8)then + write(6,230)iedit + read(5,*)prs(iedit),xln(iedit) +c helium gas standardized medium + isg(iedit) = 1 + inn(iedit) = 1 + znumb(iedit,1)=2 + anumb(iedit,1)=4 + elnum(iedit,1)=1 + concn(iedit,1)=1 !Added 6/4/2020 by SDP for explicit completeness + elseif(stdm.eq.9)then + write(6,230)iedit + read(5,*)prs(iedit),xln(iedit) +c hydrogen gas standardized medium + isg(iedit) = 1 + inn(iedit) = 1 + znumb(iedit,1)=1 + anumb(iedit,1)=1 + elnum(iedit,1)=2 + concn(iedit,1)=1 !Added 6/4/2020 by SDP for explicit completeness + else + goto 315 + endif + else + goto 315 + endif + + goto 312 + +320 write(6,240)iedit + read(5,*)inn(iedit) + + do j = 1, inn(iedit) + write(6,250)iedit,j + read(5,*)znumb(iedit,j),anumb(iedit,j), elnum(iedit,j) + concn(iedit,j)=1. + enddo + + goto 312 + +c Add layer onto end +340 ianz = ianz + 1 + +345 write(6,210)ianz + read(5,*)isg(ianz) + + if(isg(ianz).eq.0)then + write(6,220)ianz + read(5,*)den(ianz),thk(ianz) + elseif(isg(ianz).eq.1)then + write(6,230)ianz + read(5,*)prs(ianz),xln(ianz) + elseif(isg(ianz).eq.2)then + write(6,260)ianz + read(5,*)stdm + if(stdm.eq.1)then + write(6,230)ianz + read(5,*)prs(ianz),xln(ianz) +c CO2 standardized medium + isg(ianz) = 1 + inn(ianz) = 2 + znumb(ianz,1)=6 + znumb(ianz,2)=8 + anumb(ianz,1)=12 + anumb(ianz,2)=16 + elnum(ianz,1)=1 + elnum(ianz,2)=2 + concn(ianz,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(ianz,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 300 + elseif(stdm.eq.2)then + write(6,221)ianz + read(5,*)sithk +c Si standardized medium + isg(ianz) = 0 + den(ianz) = 2.329 + thk(ianz) = 0.2329*sithk + inn(ianz) = 1 + znumb(ianz,1)=14 + anumb(ianz,1)=28 + elnum(ianz,1)=1 + goto 300 + elseif(stdm.eq.3)then + write(6,222)ianz + read(5,*)thk(ianz) +c C (graphite) standardized medium + isg(ianz) = 0 + den(ianz) = 2.267 + inn(ianz) = 1 + znumb(ianz,1)=6 + anumb(ianz,1)=12 + elnum(ianz,1)=1 + goto 300 + elseif(stdm.eq.4)then + write(6,230)ianz + read(5,*)prs(ianz),xln(ianz) +c C4H10 standardized medium + isg(ianz) = 1 + inn(ianz) = 2 + znumb(ianz,1)=6 + znumb(ianz,2)=1 + anumb(ianz,1)=12 + anumb(ianz,2)=1 + elnum(ianz,1)=4 + elnum(ianz,2)=10 + concn(ianz,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(ianz,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 300 + elseif(stdm.eq.5)then + write(6,230)ianz + read(5,*)prs(ianz),xln(ianz) +c CF4 standardized medium + isg(ianz) = 1 + inn(ianz) = 2 + znumb(ianz,1)=6 + znumb(ianz,2)=9 + anumb(ianz,1)=12 + anumb(ianz,2)=19 + elnum(ianz,1)=1 + elnum(ianz,2)=4 + concn(ianz,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(ianz,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 300 + elseif(stdm.eq.6)then + write(6,222)ianz + read(5,*)thk(ianz) +c CH2 standardized medium + isg(ianz) = 0 + inn(ianz) = 2 + den(ianz) = 0.94 + znumb(ianz,1)=6 + znumb(ianz,2)=1 + anumb(ianz,1)=12 + anumb(ianz,2)=1 + elnum(ianz,1)=1 + elnum(ianz,2)=2 + goto 300 + elseif(stdm.eq.7)then + write(6,222)ianz + read(5,*)thk(ianz) +c CD2 standardized medium + isg(ianz) = 0 + inn(ianz) = 2 + den(ianz) = 1.063 !Changed 6/4/2020 by SDP to correct CD2 density from 0.93 + znumb(ianz,1)=6 + znumb(ianz,2)=1 + anumb(ianz,1)=12 + anumb(ianz,2)=2 + elnum(ianz,1)=1 + elnum(ianz,2)=2 + goto 300 + elseif(stdm.eq.8)then + write(6,230)ianz + read(5,*)prs(ianz),xln(ianz) +c helium gas standardized medium + isg(ianz) = 1 + inn(ianz) = 1 + znumb(ianz,1)=2 + anumb(ianz,1)=4 + elnum(ianz,1)=1 + concn(ianz,1)=1 !Added 6/4/2020 by SDP for explicit completeness + elseif(stdm.eq.9)then + write(6,230)ianz + read(5,*)prs(ianz),xln(ianz) +c hydrogen gas standardized medium + isg(ianz) = 1 + inn(ianz) = 1 + znumb(ianz,1)=1 + anumb(ianz,1)=1 + elnum(ianz,1)=2 + concn(ianz,1)=1 !Added 6/4/2020 by SDP for explicit completeness + goto 300 + else + goto 345 + endif + else + goto 345 + endif + + write(6,240)ianz + read(5,*)inn(ianz) + + do j = 1, inn(ianz) + write(6,250)ianz,j + read(5,*)znumb(ianz,j),anumb(ianz,j), elnum(ianz,j) + concn(ianz,j)=1. + enddo + + goto 300 + +c Add new layer in front of absorber +360 ianz = ianz + 1 + + do j = ianz, 2, -1 + isg(j)=isg(j-1) + den(j)=den(j-1) + thk(j)=thk(j-1) + prs(j)=prs(j-1) + xln(j)=xln(j-1) + inn(j)=inn(j-1) + + do k = 1, inn(j) + znumb(j,k)=znumb(j-1,k) + anumb(j,k)=anumb(j-1,k) + elnum(j,k)=elnum(j-1,k) + concn(j,k)=concn(j-1,k) + enddo + + enddo + +365 write(6,210)1 + read(5,*)isg(1) + + if(isg(1).eq.0)then + write(6,220)1 + read(5,*)den(1),thk(1) + elseif(isg(1).eq.1)then + write(6,230)1 + read(5,*)prs(1),xln(1) + elseif(isg(1).eq.2)then + write(6,260)1 + read(5,*)stdm + if(stdm.eq.1)then + write(6,230)1 + read(5,*)prs(1),xln(1) +c CO2 standardized medium + isg(1) = 1 + inn(1) = 2 + znumb(1,1)=6 + znumb(1,2)=8 + anumb(1,1)=12 + anumb(1,2)=16 + elnum(1,1)=1 + elnum(1,2)=2 + concn(1,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(1,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 300 + elseif(stdm.eq.2)then + write(6,221)1 + read(5,*)sithk +c Si standardized medium + isg(1) = 0 + den(1) = 2.329 + thk(1) = 0.2329*sithk + inn(1) = 1 + znumb(1,1)=14 + anumb(1,1)=28 + elnum(1,1)=1 + goto 300 + elseif(stdm.eq.3)then + write(6,222)1 + read(5,*)thk(1) +c C (graphite) standardized medium + isg(1) = 0 + den(1) = 2.267 + inn(1) = 1 + znumb(1,1)=6 + anumb(1,1)=12 + elnum(1,1)=1 + goto 300 + elseif(stdm.eq.4)then + write(6,230)1 + read(5,*)prs(1),xln(1) +c C4H10 standardized medium + isg(1) = 1 + inn(1) = 2 + znumb(1,1)=6 + znumb(1,2)=1 + anumb(1,1)=12 + anumb(1,2)=1 + elnum(1,1)=4 + elnum(1,2)=10 + concn(1,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(1,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 300 + elseif(stdm.eq.5)then + write(6,230)1 + read(5,*)prs(1),xln(1) +c CF4 standardized medium + isg(1) = 1 + inn(1) = 2 + znumb(1,1)=6 + znumb(1,2)=9 + anumb(1,1)=12 + anumb(1,2)=19 + elnum(1,1)=1 + elnum(1,2)=4 + concn(1,1)=1 !Added 6/4/2020 by SDP for explicit completeness + concn(1,2)=1 !Added 6/4/2020 by SDP to fix bug where element 2 was not included correctly + goto 300 + elseif(stdm.eq.6)then + write(6,222)1 + read(5,*)thk(1) +c CH2 standardized medium + isg(1) = 0 + inn(1) = 2 + den(1) = 0.94 + znumb(1,1)=6 + znumb(1,2)=1 + anumb(1,1)=12 + anumb(1,2)=1 + elnum(1,1)=1 + elnum(1,2)=2 + goto 300 + elseif(stdm.eq.7)then + write(6,222)1 + read(5,*)thk(1) +c CD2 standardized medium + isg(1) = 0 + inn(1) = 2 + den(1) = 1.063 !Changed 6/4/2020 by SDP to correct CD2 density from 0.93 + znumb(1,1)=6 + znumb(1,2)=1 + anumb(1,1)=12 + anumb(1,2)=2 + elnum(1,1)=1 + elnum(1,2)=2 + goto 300 + elseif(stdm.eq.8)then + write(6,230)1 + read(5,*)prs(1),xln(1) +c helium gas standardized medium + isg(1) = 1 + inn(1) = 1 + znumb(1,1)=2 + anumb(1,1)=4 + elnum(1,1)=1 + concn(1,1)=1 !Added 6/4/2020 by SDP for explicit completeness + goto 300 + elseif(stdm.eq.9)then + write(6,230)1 + read(5,*)prs(1),xln(1) +c hydrogen gas standardized medium + isg(1) = 1 + inn(1) = 1 + znumb(1,1)=1 + anumb(1,1)=1 + elnum(1,1)=2 + concn(1,1)=1 !Added 6/4/2020 by SDP for explicit completeness + goto 300 + else + goto 365 + endif + else + goto 365 + endif + + write(6,240)1 + read(5,*)inn(1) + + do j = 1, inn(1) + write(6,250)1,j + read(5,*)znumb(1,j),anumb(1,j), elnum(1,j) + concn(1,j)=1. + enddo + + goto 300 + +c Find the thickness of the material required to stop the stopee. +600 write(6,610) + read(5,*)j + +615 tethk = 0.01 + if(den(j).eq.(2.329).AND.znumb(j,1).eq.14.AND. + + anumb(j,1).eq.28.AND.elnum(j,1).eq.1.and.isg(j).eq.0)then + error = siupb * 0.2329 + do while (1.eq.1) + zp = z + thk(j) = tethk + edep = 0.0 + call desorb(ianz, zp, a, energy, loste) + do k=1,ianz + edep = edep + loste(k) + enddo + if(edep.ge.energy.AND.error.lt.(0.01/0.2329))then + write(6,625) + write(6,620)tethk/0.2329+0.01 + exit + elseif(edep.ge.energy.AND.tethk.eq.0.01)then + write(6,625) + write(6,620)0.01 + write(6,*)edep + exit + elseif(edep.lt.energy.AND.tethk.ge.siupb*0.2329)then + write(6,630) + exit + elseif(edep.ge.energy)then + tethk = tethk - error + error = error/2.0 + elseif(edep.lt.energy)then + tethk = tethk + error + error = error/2.0 + endif + enddo + elseif(isg(j).eq.0)then + error = soupb + do while (1.eq.1) + zp = z + thk(j) = tethk + edep = 0.0 + call desorb(ianz, zp, a, energy, loste) + do k=1,ianz + edep = edep + loste(k) + enddo + if(edep.ge.energy.AND.error.lt.0.01)then + write(6,625) + write(6,621)tethk+0.01 + exit + elseif(edep.ge.energy.AND.tethk.eq.0.01)then + write(6,625) + write(6,621)0.01 + exit + elseif(edep.lt.energy.AND.tethk.ge.siupb)then + write(6,631) + exit + elseif(edep.ge.energy)then + tethk = tethk - error + error = error/2.0 + elseif(edep.lt.energy)then + tethk = tethk + error + error = error/2.0 + endif + enddo + elseif(isg(j).eq.1)then + error = gaupb + do while (1.eq.1) + zp = z + xln(j) = tethk + edep = 0.0 + call desorb(ianz, zp, a, energy, loste) + do k=1,ianz + edep = edep + loste(k) + enddo + if(edep.ge.energy.AND.error.lt.0.01)then + write(6,625) + write(6,622)tethk+0.01 + exit + elseif(edep.ge.energy.AND.tethk.eq.0.01)then + write(6,625) + write(6,622)0.01 + exit + elseif(edep.lt.energy.AND.tethk.ge.siupb)then + write(6,632) + exit + elseif(edep.ge.energy)then + tethk = tethk - error + error = error/2.0 + elseif(edep.lt.energy)then + tethk = tethk + error + error = error/2.0 + endif + enddo + else + write(6,630) + endif + + goto 10 + +610 format(/'Which layer would you like to vary to determine', + +/'how much of it is required to stop the stopee?') + +620 format(/f10.2, ' microns') +621 format(/f10.2, ' mg/cm2') +622 format(/f10.2, ' cm') +625 format(/'Amount of absorber to stop the stopee') + +630 format(/'Not even 232 microns of the absorber stop the stopee.') +631 format(/'Not even 1 g/cm2 of the absorber stop the stopee.') +632 format(/'Not even 1 m of the absorber stop the stopee.') + +633 format(/'The absorber is neither a gas nor a solid...') + + +c Perform caculation +400 zp = z + call desorb(ianz, zp, a, energy, loste) + + edep = 0.0 + + +c If particle stopped in a layer set the energy loss to zero in the rest + + do j = 1, ianz + edep = edep + loste(j) + if(edep.ge.energy)then + do k = j + 1, ianz + 1 + loste(k) = 0.0 + enddo + goto 402 + endif + enddo + +c Produce output +402 write(6,510)z,a, energy + write(7,510)z,a, energy + write(6,520)ianz + write(7,520)ianz + + do i = 1 ,ianz + if(isg(i).eq.0)then + write(6,530)i + write(7,530)i + write(6,540)den(i),thk(i) + write(7,540)den(i),thk(i) + elseif(isg(i).eq.1)then + write(6,550)i + write(7,550)i + write(6,560)prs(i),xln(i) + write(7,560)prs(i),xln(i) + endif + + do j = 1, inn(i) + write(6,570)znumb(i,j),anumb(i,j),elnum(i,j) + write(7,570)znumb(i,j),anumb(i,j),elnum(i,j) + enddo + + write(6,410)loste(i) + write(7,410)loste(i) + + enddo + + write(6,420)loste(ianz+1) + write(7,420)loste(ianz+1) + write(6,430) + + goto 10 + +410 format('Energy lost in layer = ',f7.3,' MeV') +420 format(/'Energy remaining = ',f7.3,' MeV') +430 format(/'Output also written to stopit.log') + +500 write(6,510)z,a, energy + write(6,520)ianz + + do i = 1 ,ianz + if(isg(i).eq.0)then + write(6,530)i + write(6,540)den(i),thk(i) + elseif(isg(i).eq.1)then + write(6,550)i + write(6,560)prs(i),xln(i) + endif + + do j = 1, inn(i) + write(6,570)znumb(i,j),anumb(i,j),elnum(i,j) + enddo + enddo + + goto 10 + +510 format(//'Charged particle has Z = ',f3.0,' A = ',f3.0,' Initial + +energy = ',f8.3,' MeV.') +520 format(//'Absorber contains ',I2,' layers.') +530 format(//'Layer # ',I2,' - Solid Absorber') +540 format('Density = ',e10.4,' g/cm3 Thickness = ',e10.4,' + +mg/cm2') +550 format(//'Layer # ',I2,' - Gas Absorber') +560 format('Pressure = ',e10.4,' Torr Length = ',e10.4,' cm') +570 format('Z = ',f3.0,' A = ',f3.0,4x,'Atoms per molecule = ',f3.0) + +1000 stop + end diff --git a/eloss_calculations/stopit/stopit_pex.py b/eloss_calculations/stopit/stopit_pex.py new file mode 100644 index 0000000..b26bf1c --- /dev/null +++ b/eloss_calculations/stopit/stopit_pex.py @@ -0,0 +1,87 @@ +import pexpect as px +import sys,time,os +import matplotlib.pyplot as plt + +if len(sys.argv) != 8: + print("Usage: python3 stopit_pex.py ") + print("Modify the \#absorber section in script to change stopping material") + quit() + +stoppeeZ=int(sys.argv[1]) +stoppeeA=int(sys.argv[2]) +layer1_thickness = float(sys.argv[3]) #um +layer2_thickness = float(sys.argv[4]) #um +min_stoppee_energy=float(sys.argv[5]) +max_stoppee_energy=float(sys.argv[6]) +step_stoppee_energy=float(sys.argv[7]) + +#plotting prep +''' +plt.ion() +fig=plt.figure() +ax=fig.add_subplot(111) +ax.autoscale_view(True,True,True) +line,=ax.plot([],[],'b-') +ax.set_xlim(0,0.5*max_stoppee_energy) +ax.set_ylim(0,0.05*max_stoppee_energy) +''' +stopit_child = px.spawn("./a.out") +stopit_child.logfile = None + +def run_stopit(child,Z,A,Energy_MeV,thickness_um): + child.expect("7 stop\r") + + #stoppee + child.send("1\r") + child.expect("Enter Z and A of stopee.\r") + child.send(str(Z)+" "+str(A)+"\r") + child.expect("Enter energy in MeV.\r") + child.send(str(Energy_MeV)+"\r") + + #absorber - standard medium, Si + child.expect("7 stop\r") + child.send("2\r") + child.expect("\r") + child.send("1\r") + child.expect("He, and H2\)\r") + child.send("2\r") + child.expect("H2-gas\r") + child.send("2\r") #first 2 for 'define absorber', then 1 for '1 layer', then 2 for 'standardized material', then '2' for Si. + child.expect("\r") + child.send(str(thickness_um)+"\r") + + #run! + child.expect("7 stop\r") + child.send("4\r") + child.expect("stopit.log\r") + #get all the output that shows up before the string 'stopit.log' above. + #the split() splits it up at all whitespaces. we can pick out the substrings of interest from this bunch now + results = child.before.decode('utf-8').split() + + return [results[12],results[48],results[53]] + +layer1_edep = [] +layer2_edep = [] +stoppee_energy = min_stoppee_energy #in MeV +while(stoppee_energy < max_stoppee_energy): + [in_en,e_lost ,e_left ] = run_stopit(stopit_child,stoppeeZ,stoppeeA,stoppee_energy,layer1_thickness) + [in_en,e_lost2,e_left2] = run_stopit(stopit_child,stoppeeZ,stoppeeA,e_left ,layer2_thickness) + + print(stoppee_energy,e_lost,e_lost2) + sys.stdout.flush() + layer1_edep.append(float(e_lost)) + layer2_edep.append(float(e_lost2)) + ''' + line.set_data(layer2_edep,layer1_edep) #dE in y-axis, E in x-axis when possible + ax.relim() + plt.draw() + plt.pause(0.004) + ''' + stoppee_energy += step_stoppee_energy + +stopit_child.expect("7 stop\r") +stopit_child.send("7\r") +stopit_child.expect(px.EOF) +stopit_child.close() + +plt.show(block=True) diff --git a/eloss_calculations/test_tgraph.C b/eloss_calculations/test_tgraph.C new file mode 100644 index 0000000..e385a89 --- /dev/null +++ b/eloss_calculations/test_tgraph.C @@ -0,0 +1,17 @@ +void test_tgraph() { + TGraph MeV_to_cm("alphas_in_250torr_mix_filtered.txt","%lf %*lf %lf"); + TGraph cm_to_MeV(MeV_to_cm.GetN(), MeV_to_cm.GetY(), MeV_to_cm.GetX()); + + MeV_to_cm.Draw("AL"); + while(gPad->WaitPrimitive()); + cm_to_MeV.Draw("AL"); + gPad->Modified(); gPad->Update(); + while(gPad->WaitPrimitive()); + + double e=6.0,L=4.0; + while(e>5.0) { + double temp = MeV_to_cm.Eval(e)-L; + std::cout << "If we detect an alpha at " << e << " MeV, covering a path of " << L << " cm, " << cm_to_MeV.Eval(MeV_to_cm.Eval(e)-L) << " MeV is its original energy " << L << " cm prior" << std::endl; + e-=0.05; + } +} diff --git a/gmsx3/func1.h b/gmsx3/func1.h new file mode 100644 index 0000000..620b787 --- /dev/null +++ b/gmsx3/func1.h @@ -0,0 +1,41 @@ +#include "TF1.h" + +double model2(double *x, double *par) { + /* 'Potential Well' of width 2a from from xx-a to xx+a + xx is coordinate about the point of origin, set at x=center + v0 is the y-offset of the potential + k is the 'steepness' of the potential + + continuous across xx-a and xx+a, and differentiable + */ + + double center= par[3]; + double xx = x[0]-center; + double a = TMath::Abs(par[0]); + double k = TMath::Abs(par[1]); + double v0 = par[2]; + + if(xx < -a) + return k*(xx+a)*(xx+a) + v0; + else if(xx > a) + return k*(xx-a)*(xx-a) + v0; + else + return v0; +} + +void func1() { + //TF1 f1("bowl",model,-2.,2.,2); + TCanvas c("c1","c1",800,600); + TF1 f1("bowl",model2,-10.,10.,4); + f1.SetMaximum(10); + + for(int i=-4; i<4; i++) { + f1.SetParameters(.4,100,2,i); //a, k, v0, center + f1.SetNpx(100000); + if(i==-4) f1.Draw("L"); + f1.DrawCopy("L SAME"); + c.Modified(); c.Update(); + //c.SaveAs(Form("%d.png",out)); + while(c.WaitPrimitive()); + } +} diff --git a/gmsx3/intgm_sx3.h b/gmsx3/intgm_sx3.h new file mode 100644 index 0000000..837c292 --- /dev/null +++ b/gmsx3/intgm_sx3.h @@ -0,0 +1,216 @@ +#include "../Armory/HistPlotter.h" +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "func1.h" +static long iters=0; + +//class intgm_sx3 : public ROOT::Minuit2::FCNBase { +class intgm_sx3 { + int N; + + //L.at(0).at(3).at(n) is front strip = 0, back pad = 3, nth datapoint + std::array,4>,4> L,R,B; + //std::array,4> stripedge; //stripedge.at(i).at(j) is the jth edge of the ith strip. there are five edges for the four strips 'i'=0 to 3, (0,1) (1,2) (2,3) (3,4) for each + //the edges are at -2a, -a, 0, a, 2a respectively so we enforce four ratios in the chi2 value - 'a' can be held constant, no need to fit it. + + //assume z = M*(aL-bR) + //stripedge[i][1] = max(z) when pad==0 = min(z) when pad==1 this should be -1 + //stripedge[i][2] = max(z) when pad==1 = min(z) when pad==2. this should be 0 + //stripedge[i][3] = max(z) when pad==2 = min(z) when pad==3. this should be 1 + + //i.e. stripedge[i][j] = max(z) when pad == j-1, min(z) when pad==j, for i= 1,2,3 + + //ncounts.at(frontch).at(backch) is the number of (L,R,B) tuples we've filled (frontch,backch) coordinates in the detector + std::array,4> ncounts; + TH1F *localhists[4][4]; //one histogram for each fc, bc combination + HistPlotter *plotter; + TF1 *pos_weight[4]; + TF1 *energywell; + public: + intgm_sx3() { + for(int bc=0; bc<4; bc++) { + for(int fc=0; fc<4; fc++) { + L[fc][bc].reserve(1000); + R[fc][bc].reserve(1000); + B[fc][bc].reserve(1000); + //localhists[fc][bc] = new TH1F(Form("h_%d_%d",fc,bc),Form("h_%d_%d",fc,bc),1000,-4.,4.); + ncounts[fc][bc] = 0; + } + pos_weight[bc] = new TF1(Form("b_strip%d",bc),model2,-10,10,4); //from -10, to 10, 4 parameters + pos_weight[bc]->SetParameters(1.0,10,1.,3-2*bc); //centers at 1, 3.,5,7 Width 2a with a=1.0 + pos_weight[bc]->SetNpx(1'000'000); + } + energywell = new TF1("ewell",model2,0,2000,4); //0 to 2000 channels, 4 params + energywell->SetParameters(1000,20,1,1500); //center the back E values at 1500 +/- 500 + energywell->SetNpx(1'000'000); + N=0; + } + void set_plotter(HistPlotter *p) {plotter=p;} + void set_iters(long i) { iters=i;} + intgm_sx3(HistPlotter *p) : plotter(p) { + for(int bc=0; bc<4; bc++) { + for(int fc=0; fc<4; fc++) { + L[fc][bc].reserve(1000); + R[fc][bc].reserve(1000); + B[fc][bc].reserve(1000); + //localhists[fc][bc] = new TH1F(Form("h_%d_%d",fc,bc),Form("h_%d_%d",fc,bc),1000,-4.,4.); + ncounts[fc][bc] = 0; + } + pos_weight[bc] = new TF1(Form("b_strip%d",bc),model2,-10,10,4); //from -10, to 10, 4 parameters + //a/2, k, v0, center + pos_weight[bc]->SetParameters(0.92,10,1.,-1.*(3-2*bc)); //centers at 7, 5.,3,1 Width 2a with a=1.0 + pos_weight[bc]->SetNpx(1'000'000); + } + energywell = new TF1("ewell",model2,0,8000,4); //0 to 2000 channels, 4 params +// energywell->SetParameters(60,10,0,1430); //center the back E values at 1430 +/- 60 + energywell->SetParameters(400,10,0,5246); //center the back E values at 5486 +/- 600 + energywell->SetNpx(1'000'000); + N=0; + } + + inline void fill(int fc, int bc, double leftE, double rightE, double backE) { + /* + * + */ + assert(fc>=0 && fc<=3 && "Front channels should fit the range 0 to 3 inclusive!"); + assert(bc>=0 && bc<=3 && "Back channels should fit the range 0 to 3 inclusive!"); + if(leftE>0 && rightE >0 && backE>0) { + L[fc][bc].emplace_back(leftE); + R[fc][bc].emplace_back(rightE); + B[fc][bc].emplace_back(backE); + ncounts[fc][bc]+=1; + N+=1; + } + } + + inline void print() { + for(int i=0; i<16; i++) { + std::cout << ncounts[i%4][i/4] << std::endl; + } + } + inline void plot(std::string comment, const double* params) { + std::array l,r,b,bo,ro,lo,offset,stretch; //aliases to help with book-keeping + std::array,4> back_gains;// back_gains[fc][bc] are for fc,bc firing in combo + for(int ctr=0; ctr<4; ctr++) { + r[ctr] = params[ctr]; + } + for(int ctr=4; ctr<20; ctr++) { + int bch = (ctr-4)%4; + int fch = (ctr-4)/4; + back_gains[bch][fch] = params[ctr]; + } + for(int ctr=20; ctr<24; ctr++) { + stretch[ctr-20] = params[ctr]; + } + for(int ctr=24; ctr<28; ctr++) { + l[ctr-24] = params[ctr]; + } + for(int fc=0; fc<4; fc++) { + for(int bc=0; bc<4; bc++) { + for(int n=0; nFill2D(Form("normlf_fc%d_%d_%s",fc,bc,comment.c_str()),800,0,1.,800,0,1.,left/back, right/back,"l_vs_r"); + plotter->Fill2D(Form("normlf_all_%s",comment.c_str()),800, 0, 1., 800, 0, 1.,left/back, right/back); + plotter->Fill2D(Form("case_f%d_b%d_%s",fc,bc,comment.c_str()),800,0,8192,800,0,8192,left+right,back,"l_vs_r"); + plotter->Fill2D(Form("case_all_%s",comment.c_str()),800,0,8192,800,0,8192,left+right,back); + //plotter->Fill2D(Form("z_vs_backe_f%d_b%d_%s",fc,bc,comment.c_str()),800,-10,10,800,0,8192,zpos,back,"z_vs_be"); + plotter->Fill2D(Form("z_vs_backe_all_%s",comment.c_str()),800,-10,10,800,0,8192,zpos,back); + } //end if plotter + }// end for-n + }//end for-bc + }//end for-fc + }//end plot() + + // double operator()(const std::vector& params) const override{ + double eval(const double* params) const { + iters+=1; + + std::array l,r,b,bo,ro,lo, offset, stretch; //aliases to help with book-keeping + std::array,4> back_gains;// back_gains[fc][bc] are for fc,bc firing in combo + for(int ctr=0; ctr<16; ctr++) { + int bch = (ctr)%4; + int fch = (ctr)/4; + back_gains[bch][fch] = params[ctr]; + } + for(int ctr=16; ctr<20; ctr++) { + r[ctr-16] = params[ctr]; + l[ctr-16] = 1.0; + } + for(int ctr=20; ctr<24; ctr++) { + stretch[ctr-20] = params[ctr]; + } + double result=0, sumcount=0; + for(int fc=0; fc<4; fc++) { + for(int bc=0; bc<4; bc++) { + //if(bc >= 1 || fc >= 1 ) continue; + if(ncounts[fc][bc] == 0 && iters ==0) { + std::cout << "Missing any data in front:" << fc << " back:" << bc << " combination." << std::endl; + } + + for(int n=0; nEval(zpos) << " " << bc << std::endl; + double add_position = pos_weight[bc]->Eval(zpos); + double eback_align_penalty = energywell->Eval(back); +/* if(back>1000) zmid[fc][bc] += zpos; + if(back>1000 && zpos < zmin[fc][bc]) zmin[fc][bc] = zpos; + if(back> 1000 && zpos > zmax[fc][bc]) zmax[fc][bc] = zpos; + + if(back>1000) { + localhists[fc][bc]->Fill(zpos); + }*/ + + result += add_position; + //result += add; + result += eback_align_penalty; + sumcount+=1; + //if(bc==0) std::cout << add << " " << add_position << " " << zpos << std::endl; + //To avoid drift towards (0,0,0) trivial solution. This value ~1 close to (1,1,1) + //result+=(1e-3/(TMath::Power(l[fc],2)+TMath::Power(r[fc],2)+TMath::Power(b[bc],2)+1e-9)); + //result+=(1e-3/(TMath::Power(l[fc],2)+TMath::Power(r[fc],2)+TMath::Power(b[bc],2)+1e-9)); + } //end for-n + } //end for-bc + } //end for-fc + result/=sumcount; //normalize, so the value doesn't scream + if(iters%1'000==0) { + std::cout << "iters : " << iters << " params: " << std::endl ; + for(int i=0 ; i< 10; i++) std::cout << params[i] << " " << std::flush; + std::cout<< std::endl; + for(int i=10 ; i< 20; i++) std::cout << params[i] << " " << std::flush; + std::cout << std::endl << " result: " << result << std::endl; + } //end if + return result; + } //end eval() + + //double Up() const override { return 1.0; } // Required by minuit2 FCBase + +}; + diff --git a/gmsx3/utilities_orr.h b/gmsx3/utilities_orr.h new file mode 100644 index 0000000..2c6566a --- /dev/null +++ b/gmsx3/utilities_orr.h @@ -0,0 +1,338 @@ +#ifndef UTILS_ORR_H +#define UTILS_ORR_H +#include "datatypes.h" +#include "HistPlotter.h" +#include "Geometry_orr.h" //contains orruba geometry constants +#include +#include +#include +#include +#include +#include +#include +//#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "TMath.h" +#include "counters.h" + +static named_counter oc("named orruba counters"); + +inline float get_filesize(std::string filename) { + struct stat st; + stat(filename.c_str(), &st); + return st.st_size; +} + +class orruba_params { + /* + * + */ +public: + int chnum=DEFAULT_NULL; //!< global channel number + std::string type = "-"; + int id=DEFAULT_NULL; + int layer=DEFAULT_NULL; + int frontback=DEFAULT_NULL; + int updown=DEFAULT_NULL; + int subid=DEFAULT_NULL; + int leftright=DEFAULT_NULL; + + float ped=DEFAULT_NULL; + float offset=DEFAULT_NULL; + float gain=DEFAULT_NULL; + float gain2=DEFAULT_NULL; //for use with sx3's +}; + +class sx3_geometry_scalefactors { +public: + //If sx3 has L, R being the left and right extremities, we choose add, stretch here such that + // x_mm = (x_raw+add)*stretch; so add=abs(L), stretch=75/(abs(L)+R) + float add[4]; + float stretch[4]; +}; + +class qqq5_finegains { +public: + std::array,32> front; + //front.at(30).first = slope at clkpos 0, ring 30 for E front layer + //front.at(30).second = intercept for the same as above + std::array,4> back; +}; +class sx3_fbgains { +public: + //Order of indices is [pad][strip] + float padoffsets[4][4]; + float padgains[4][4]; + + float stripLoffsets[4][4]; + float stripLgains[4][4]; + + float stripRoffsets[4][4]; + float stripRgains[4][4]; +}; + +//Metadata ORRUBA needs to know about itself, to be configured at the start +extern std::array o_params; +extern std::array sx3_xtalk_gains; //every sx3 needs to be gainmatched as a frontL-back, frontR-back pair (pad strip pair) +extern std::array sx3gs; +extern std::array qqq5_fg_dE, qqq5_fg_E; + +class type19Raw { +public: + long int timestamp; + std::vector ch; + std::vector val; + + type19Raw() : timestamp(0), ch(50,0), val(50,0) {} //Reserve 50 for size of these vectors, initial value of zero + void print() const { + /* + print() + Prints type19Raw's contents to stdout for monitoring + */ + std::cout << "------" << std::endl; + for(unsigned int ii=0; ii back[4]; + std::vector frontL[4]; + std::vector frontR[4]; + + double ts = DEFAULT_NULL; + //Easy lookup of final calibrated event. Only filled for valid cases, assumed for now to be 1L, 1R, 1B + float frontX=DEFAULT_NULL; + float frontXmm=DEFAULT_NULL; + float frontE=DEFAULT_NULL; + float backE=DEFAULT_NULL; + int stripF=DEFAULT_NULL; + int stripB=DEFAULT_NULL; + float frontEL=DEFAULT_NULL; + float frontER=DEFAULT_NULL; + + float phi=DEFAULT_NULL; // + + std::set valid_front_chans; + std::set valid_back_chans; + std::set unmatched_front_chans; //every front channel is unmatched and invalid at first. when it gets matched, it gets removed and sent to valid + + bool foundevent=false; + bool valid=false;//valid will be set to false in all cases where we have ambiguity + int flags=-1;//flags settable to different types of values to indicate different invalid situations + + void fillevent(const std::string& position, const int subchannel, const float value); //make 'const' what functions don't need to change, helps with performance + void validate(const sx3_fbgains&, const sx3_geometry_scalefactors&); +}; + +class qqq5 { +public: + //Holds all information in an event, including ped subtraction+scaling. front[2].at(0) will have the largest energy seen in ch2, if any + //TODO: Convert to std::array + std::vector back[4]; + std::vector front[32]; + + double ts = DEFAULT_NULL; + float selftheta=DEFAULT_NULL,selfrho=DEFAULT_NULL; + //Easy lookup of the final calibrated event. Only filled for valid cases. + double frontE=DEFAULT_NULL; + double backE=DEFAULT_NULL; + int frontch; + int backch; + + std::pair adj_front_strips = {-1,-1}; + std::pair adj_back_strips = {-1,-1}; + std::set valid_front_chans; //list of channels that fire. can inspect size() of these to see if there are front/back events + std::set valid_back_chans; // we use std::set since it makes for very readable code + + bool foundevent=false; + bool valid=false; //valid will be set to false in all cases where we have ambiguity + int flags=-1; //flags settable to different types of values to indicate different invalid situations + + void fillevent(const std::string& position, const int subchannel, const float value); //make 'const' what functions don't need to change, helps with performance + void validate(); +}; + +struct orrubaevent { + //Every clean, valid charged-particle event will have these four parts + float dE=DEFAULT_NULL; //!< true energy-loss in the dE layer. Found by gainmatching ADC readout to alpha data + float E=DEFAULT_NULL; //!< energy deposited in the E layer. When summed with dE, gives true energy in keV deposited by the particle in ORRUBA + float dE_PID = DEFAULT_NULL; //!< dE scaled for dE-layer's thickness, reducing the spread due to angular straggling by explicitly accounting for it. This will give a sharper pid plot that can be gated on better + float dE_linPID = DEFAULT_NULL; //!< dE_PID, but linearized using the prescription described in, say, PhysRevC.90.034601 (2014). dE_linPID = ((dE+E)^a-E^a)^(1/a) where a ~ 1.68 is chosen empirically + float Theta=DEFAULT_NULL; //!< Laboratory polar angle of event in radians, deprecated + float Phi=DEFAULT_NULL; //!< Lab azimuthal angle of event in radians, deprecated + + //Helpful indices to make dE-E plots + std::string type; //!< "endcap" vs "barrel" + //!< Identify the position of the detector in the barrel, usually in accordance with the channel map: say we might learn detector is at "Quad 4" or "clk_pos 10", together with 'type'. Useful with HistPlotter class + int position=DEFAULT_NULL; + int subchdE_1=DEFAULT_NULL, subchdE_2=DEFAULT_NULL; //!< Identify the subchannels corresponding to the two sides of the dE detector. To avoid confusion, 1=strip(sx3), ring(qqq) and 2=pad(sx3), wedge(qqq) + int subchE_1=DEFAULT_NULL, subchE_2=DEFAULT_NULL; //!< Identify the subchannels corresponding to the two sides of the E detector. Same convention as above + + float x=DEFAULT_NULL,y=DEFAULT_NULL,z=DEFAULT_NULL; //!< Laboratory x,y,z coordinates of the event from the E layer + float r0=DEFAULT_NULL,theta0=DEFAULT_NULL,phi0=DEFAULT_NULL; //!< vector elements from hit to origin for E layer + float r1=DEFAULT_NULL,theta1=DEFAULT_NULL,phi1=DEFAULT_NULL; //!< vector elements from hit to origin for dE layer +}; + +/*TODO: + * There will be some use for a class such that it stores + PhysicsEvent = + * Once the 'orrubaevent' structs are made, it should be callable. like + std::vector getPhysicsFromVertices(Kinematics dpkin, std::vector orvec);? + * should the physics just go sit in orrubaevent? maybe orruba2024 class can have a kinematics object in it? +*/ + +class orruba2024 { +private: +//Class expected to be changed for each version of the analysis code +public: + bool found_trk, found_trkpresc, found_tdcq, found_s800e1, found_s800trg, + found_rf, found_gt, found_si, found_siup; + + bool found_de, found_e, found_qqq, found_sx3;//orruba + long long timestamp=DEFAULT_NULL; + std::vector o_rawvec; + + std::array uendcapE; + std::array uendcapdE; + std::array ubarrelE; + std::array ubarreldE; + + std::array dbarrelE; + //Results after post-processing, including possible multiplicities + std::vector events; + + double target_z_offset; + + //void initialize(const std::string & filename1, const std::string& filename2, const std::string& filename3); + float tdc_trk = DEFAULT_NULL; + float tdc_trksi = DEFAULT_NULL; //trackerpr+si stops are combined into one channel + float tdc_trkp = DEFAULT_NULL; + float tdc_q = DEFAULT_NULL; + float tdc_s800e1 = DEFAULT_NULL; + float tdc_s800trg = DEFAULT_NULL; + float tdc_rf = DEFAULT_NULL; + float tdc_rf_unwrap = DEFAULT_NULL; + float tdc_gt = DEFAULT_NULL; + float tdc_si = DEFAULT_NULL; + float tdc_siup = DEFAULT_NULL; + orruba2024(const std::vector& orvec); + void postprocess(); //generates 'events', and performs validations on freshly entered data. performs fine gainmatching for front-back-pairs + void print() const { + std::cout << Form("TDCs\n trk:%1.4f\ntrkp:%1.4f\nq:%1.4f\ns800e1:%1.4f\ns800trg:%1.4f\nrf:%1.4f\nrfuw:%1.4f\ngt:%1.4f\nsi:%1.4f\nsiup:%1.4f\n-----\nevents_size:%lu\ntimestamp:%lld\nfound_de:%d, found_e:%d\n-------\n-------\n", + tdc_trk, tdc_trkp, tdc_q, tdc_s800e1, tdc_s800trg, tdc_rf, tdc_rf_unwrap, tdc_gt, tdc_si, tdc_siup, events.size(), timestamp, found_de, found_e) << std::endl; + } +}; + +class trackingdet { +public: + double timestamp=DEFAULT_NULL; + //TODO: Convert all to std::array + std::vector xwires[MAXNWIRES_TRACK]; + std::vector ywires[MAXNWIRES_TRACK]; + std::vector xwiresf[MAXNWIRES_TRACK]; + std::vector ywiresf[MAXNWIRES_TRACK]; + std::vector xwiresf_nn[MAXNWIRES_TRACK]; + std::vector ywiresf_nn[MAXNWIRES_TRACK]; + + std::vector xtimes[MAXNWIRES_TRACK]; + std::vector ytimes[MAXNWIRES_TRACK]; + std::vector xtimesf[MAXNWIRES_TRACK]; + std::vector ytimesf[MAXNWIRES_TRACK]; + std::vector cathode; + + int multx; //how many x-wires fired? + int multy; //how many y-wires fired? + int multxf; //how many filtered x-wires fired? + int multyf; //how many filtered y-wires fired? + + int multxt; //how many x-tdcwires fired? + int multyt; //how many y-tdcwires fired? + + int multxtf; //how many x-tdcwires fired in window? + int multytf; //how many y-tdcwires fired in window? + + float tot_cathode=0; + float tot_x=0; + float tot_y=0; + float tot_anode=0; + + //list of x and y wires fired above energy threshold, within timing gate window + std::set list_ywires; + std::set list_xwires; + + std::set list_ytwires; + std::set list_xtwires; + + //position of the vertex estimated by up to 2 neighbouring wires firing together within window + double xpos=DEFAULT_NULL; + double ypos=DEFAULT_NULL; + bool clean_event = false; + int maxnx=-124, maxny=-124; + int nnx = 0; //nearest neighbour x wires set this to +/- 1 if present w.r.t. wire maxnx + int nny = 0; //nearest neighbour y wires set this to +/- 1 if present w.r.t wire maxny + bool clean_event_no_timing = false; + bool clean_single_xy_event = false; + bool clean_single_xy_event_no_timing = false; + void Reset() { + /*** + Resets all data members. + **/ + cathode.clear(); + for(int i=0; i& orvec); +}; + +const float alpha = 0.0; +int matchchantype(unsigned short chan, const std::array& index, const std::string& label); +void initialize_orruba(const std::string & filename1, const std::string& filename2, const std::string& filename3, const std::string& filename4);//, +int parse_orruba_data(const unsigned short* buffer, int32_t length, type19Raw& oraw_event); +#endif diff --git a/gnuplot_lookerup b/gnuplot_lookerup new file mode 100644 index 0000000..9192dcc --- /dev/null +++ b/gnuplot_lookerup @@ -0,0 +1,80 @@ + +# --- configuration --- +datafilec = "../ANASEN_analysis/PW_study_Sudarsan/cathode1_2.dat" +datafilea = "../ANASEN_analysis/PW_study_Sudarsan/anode1_2.dat" +datafileqr = "../ANASEN_analysis/PW_study_Sudarsan/qqq_rings_geometry.dat" +datafileqw = "../ANASEN_analysis/PW_study_Sudarsan/qqq_wedges_geometry.dat" + +set datafile separator "," + +N = 24 #number of cids + +# --- allocate arrays --- +array ca1x[N] +array an1x[N] +array ca1y[N] +array an1y[N] +array ca1z[N] +array an1z[N] +array ca2x[N] +array an2x[N] +array ca2y[N] +array an2y[N] +array ca2z[N] +array an2z[N] +array qqqW_Phi[64] +array qqqR_Rho[16] + +# --- initialize (optional but safe) --- +do for [i=1:N] { + ca1x[i] = ca1y[i] = ca1z[i] = NaN; + ca2x[i] = ca2y[i] = ca2z[i] = NaN; + an1x[i] = an1y[i] = an1z[i] = NaN; + an2x[i] = an2y[i] = an2z[i] = NaN; +} + +do for [j=1:16] { + do for [i=1:4] { + qqqW_Phi[i*4+j] = NaN + } + qqqR_Rho[j] = NaN +} + + +# --- load table into arrays --- +stats datafilec using \ + (ca1x[int($1)+1] = $2, \ + ca1y[int($1)+1] = $3, \ + ca1z[int($1)+1] = $4, \ + ca2x[int($1)+1] = $5, \ + ca2y[int($1)+1] = $6, \ + ca2z[int($1)+1] = $7, 0) \ + nooutput + +stats datafilea using \ + (an1x[int($1)+1] = $2, \ + an1y[int($1)+1] = $3, \ + an1z[int($1)+1] = $4, \ + an2x[int($1)+1] = $5, \ + an2y[int($1)+1] = $6, \ + an2z[int($1)+1] = $7, 0) \ + nooutput + +set datafile separator "\t" +stats datafileqr using \ + (qqqR_Rho[int($1)+1] = $2, 0) \ + nooutput + +stats datafileqw using \ + (qqqW_Phi[(int($1))*4+int($2)+1] = $3, 0) \ + nooutput + +#do for [i=1:N] { +# print sprintf("Data[%d] = %g", i, an1x[i]) +# print sprintf("Data[%d] = %g", i, ca1x[i]) +#} + +set datafile separator whitespace +#plot '< cat /tmp/coords | grep q' u (ca1x[int($2)+1]):(ca1y[int($2)+1]):(ca1x[int($2)+1]):(ca1y[int($2)+1]) w vector + +#pause mouse key diff --git a/live_plotter b/live_plotter new file mode 100644 index 0000000..60fa783 --- /dev/null +++ b/live_plotter @@ -0,0 +1,41 @@ +#columns: +#1 is anodeindex, 2 is cathodeindex, 3,4,5 is crossover x,y,z, 6 is alpha - 7,8,9 are anode loci (first plane), 10, 11, 12 are cathode loci (first plane). +#13,14,15 are anode second plane loci, 16,17,18 are cathode second plane loci + +#set term qt font 'Verdana,10' size 1920,1080 +set term x11 font 'terminus-16' size 1920,1080 noraise +#set key outside +pause_status=0 +load 'gnuplot_lookerup' +bind all "x" "pause_status=!pause_status" +set datafile separator "," + +#anode-cathode-raw-loci, junction points colored same as anode wires +set title sprintf('press ctrl+q to redraw, Ctrl+C the terminal to exit. pause\_status=%d',pause_status) +set xlabel 'x-axis' +set ylabel 'y-axis' +#set view 212,110,1,1 + +set xrange [-100:100] +set yrange [-100:100] +set zrange [-200:200] + +set zlabel 'z-axis' +splot '../ANASEN_analysis/PW_study_Sudarsan/results_zsort.dat' u 7:8:9:($13-$7):($14-$8):($15-$9):1 with vectors nohead dt 1 lc variable title 'anodes',\ + '' u 10:11:12:($16-$10):($17-$11):($18-$12):2 w vectors nohead dt 7 lc variable title 'cathodes',\ + '../ANASEN_analysis/PW_study_Sudarsan/results_zsort.dat' u 3:4:5:1 w lp ls 7 lc variable title 'vertices colored anode',\ + '< cat /tmp/coords | grep an' u (an1x[int($2)+1]):(an1y[int($2)+1]):(an1z[int($2)+1]):(an2x[int($2)+1]-an1x[int($2)+1]):(an2y[int($2)+1]-an1y[int($2)+1]):(an2z[int($2)+1]-an1z[int($2)+1]) w vector nohead lc 'black' lw 8 title 'selected\_anode',\ + '< cat /tmp/coords | grep ca' u (ca1x[int($2)+1]):(ca1y[int($2)+1]):(ca1z[int($2)+1]):(ca2x[int($2)+1]-ca1x[int($2)+1]):(ca2y[int($2)+1]-ca1y[int($2)+1]):(ca2z[int($2)+1]-ca1z[int($2)+1]) w vectors nohead lc 'grey' dt 2 lw 8 title 'selected\_cath',\ + '< cat /tmp/coords | grep q' u (qqqR_Rho[int($3)+1]*cos((pi/180.)*qqqW_Phi[int($2)*4+int($5)+1])):(qqqR_Rho[int($3)+1]*sin((pi/180.)*qqqW_Phi[int($2)*4+int($5)+1])):(128) w p ps 4 lc 'black' title 'qqqvertex' + #'' u 7:8:9:($1):1 w labels font ',10' tc variable notitle,\ + #'' u 13:14:15:($1):1 w labels font ',10' tc variable notitle,\ + #'' u 10:11:12:($2):2 w labels font ',10' tc variable notitle,\ + #'' u 16:17:18:($2):2 w labels font ',10' tc variable notitle +if(pause_status==0) { + pause 1.0 +} else { + reread + pause mouse close + pause_status=!pause_status +} +reread diff --git a/pccal/anode_gainmatch.C b/pccal/anode_gainmatch.C new file mode 100644 index 0000000..fa267be --- /dev/null +++ b/pccal/anode_gainmatch.C @@ -0,0 +1,67 @@ +void anode_gainmatch(){ + TFile *f = new TFile("../results_run16.root"); + + TH2F *pc_index_h2d = (TH2F*)(f->Get("hRawPC/PC_Index_Vs_Energy")); + std::cout << pc_index_h2d << std::endl; + TCanvas c("c1","c1",0,0,1600,800); + //TCanvas c_g("cg","cg",0,900,400,400); + c.Divide(2,1); + auto c1=c.cd(1); + pc_index_h2d->Draw("COLZ"); + pc_index_h2d->GetYaxis()->SetRangeUser(240,5000); + auto c2=c.cd(2); + c2->SetLogy(); + TH1F *h_1d=NULL; + int bin_index=1; + std::vector> all_peaks; + std::vector found_wire_list; + while(bin_index<=24) { + h_1d=(TH1F*)(pc_index_h2d->ProjectionY("_py",bin_index,bin_index)); + auto c1 = c.cd(1); + TBox box(pc_index_h2d->GetXaxis()->GetBinLowEdge(bin_index),0,pc_index_h2d->GetXaxis()->GetBinUpEdge(bin_index),pc_index_h2d->GetYaxis()->GetXmax()); + box.SetFillColorAlpha(kYellow+3,0.3); + box.Draw("SAME"); + c1->Modified(); c1->Update(); + //while(c1->WaitPrimitive()); + + TSpectrum s; + auto c2 = c.cd(2); + h_1d->Draw(); + c2->Modified(); c2->Update(); + int npeaks = s.Search(h_1d,8,"",0.02); std::cout << npeaks << std::endl; + if(npeaks>=3) { + std::vector xpeaks(s.GetPositionX(),s.GetPositionX()+npeaks); + std::sort(xpeaks.begin(),xpeaks.end(),std::greater()); + found_wire_list.push_back((int)pc_index_h2d->GetXaxis()->GetBinCenter(bin_index)); + all_peaks.push_back(xpeaks); + } + while(c2->WaitPrimitive()); + bin_index++; + } + c.cd(2)->SetLogy(kFALSE); + gStyle->SetOptFit(1111); + + std::ofstream outfile("anode_gm_coeffs.dat"); + outfile << found_wire_list.at(0) << " " + << 1.0 << " " + << 0.0 << std::endl; + + for(int i=0; iGetParameter(1) << " " + << ((TF1*)g.FindObject("pol1"))->GetParameter(0) << std::endl; + c2->Modified(); + c2->Update(); + while(c2->WaitPrimitive()); + } + outfile.close(); + f->Close(); + return; +} diff --git a/pccal/anode_gm_coeffs.dat b/pccal/anode_gm_coeffs.dat new file mode 100644 index 0000000..a241cfe --- /dev/null +++ b/pccal/anode_gm_coeffs.dat @@ -0,0 +1,24 @@ +0 1 0 +0 0.937314 -16.871 +2 0.965461 -1.54376 +3 0.926501 -3.27662 +4 0.905634 2.54577 +5 0.905634 -11.0387 +6 0.853919 6.23079 +7 0.945588 -9.54044 +8 0.884454 -11.8262 +9 0.922501 -3.42538 +10 0.903053 9.28069 +11 0.914653 9.87642 +12 0.965332 13.2526 +13 0.923847 -3.41775 +14 0.93845 25.9901 +15 0.955424 12.324 +16 0.95116 4.99595 +17 0.910745 2.86648 +18 0.941376 4.57217 +19 0.871622 932.111 +20 1.00624 7.86358 +21 0.969834 -45.001 +22 0.89304 -31.5635 +23 0.933226 4.02193 diff --git a/pccal/cathode_gainmatch.C b/pccal/cathode_gainmatch.C new file mode 100644 index 0000000..d52e32a --- /dev/null +++ b/pccal/cathode_gainmatch.C @@ -0,0 +1,69 @@ +void cathode_gainmatch(){ + TFile *f = new TFile("../results_run17.root"); + TH2F *pc_index_h2d = (TH2F*)(f->Get("hRawPC/PC_Index_Vs_Energy")); + std::cout << pc_index_h2d << std::endl; + TCanvas c("c1","c1",0,0,1600,800); + //TCanvas c_g("cg","cg",0,900,400,400); + c.Divide(2,1); + auto c1=c.cd(1); + pc_index_h2d->Draw("COLZ"); + pc_index_h2d->GetYaxis()->SetRangeUser(600,pc_index_h2d->GetYaxis()->GetXmax()); + auto c2=c.cd(2); + c2->SetLogy(); + TH1F *h_1d=NULL; + int bin_index=25; + std::vector pulser_heights = {0.01,0.05,0.1,0.15,0.2,0.25,0.3,0.5}; + std::vector> all_peaks; + std::vector found_wire_list; + while(bin_index<=48) { + h_1d=(TH1F*)(pc_index_h2d->ProjectionY("_py",bin_index,bin_index)); + auto c1 = c.cd(1); + TBox box(pc_index_h2d->GetXaxis()->GetBinLowEdge(bin_index),0,pc_index_h2d->GetXaxis()->GetBinUpEdge(bin_index),pc_index_h2d->GetYaxis()->GetXmax()); + box.SetFillColorAlpha(kYellow+3,0.3); + box.Draw("SAME"); + c1->Modified(); c1->Update(); + //while(c1->WaitPrimitive()); + + TSpectrum s; + auto c2 = c.cd(2); + h_1d->Draw(); + c2->Modified(); c2->Update(); + int npeaks = s.Search(h_1d,20,"",0.1); std::cout << npeaks << std::endl; + if(npeaks==8) { + std::vector xpeaks(s.GetPositionX(),s.GetPositionX()+npeaks); + for(int i=0; i<8; i++) { + std::cout << pc_index_h2d->GetXaxis()->GetBinCenter(bin_index) << " " << xpeaks.at(i) << " " << xpeaks.at(i)/pulser_heights.at(i) << std::endl; + } + std::sort(xpeaks.begin(),xpeaks.end(),std::greater()); + found_wire_list.push_back((int)pc_index_h2d->GetXaxis()->GetBinCenter(bin_index)); + all_peaks.push_back(xpeaks); + } + while(c2->WaitPrimitive()); + bin_index++; + } + c.cd(2)->SetLogy(kFALSE); + gStyle->SetOptFit(1111); + + std::ofstream outfile("cathode_gm_coeffs.dat"); + outfile << found_wire_list.at(0) << " " + << 1.0 << " " + << 0.0 << std::endl; + + for(int i=1; iGetParameter(1) << " " + << ((TF1*)g.FindObject("pol1"))->GetParameter(0) << std::endl; + c2->Modified(); + c2->Update(); + while(c2->WaitPrimitive()); + } + outfile.close(); + f->Close(); + return; +} diff --git a/pccal/cathode_gm_coeffs.dat b/pccal/cathode_gm_coeffs.dat new file mode 100644 index 0000000..b1aaa77 --- /dev/null +++ b/pccal/cathode_gm_coeffs.dat @@ -0,0 +1,21 @@ +24 1 0 +25 0.941896 6.16135 +26 0.980284 2.86886 +27 0.983166 -3.82952 +28 0.978704 -2.89713 +29 0.964947 2.25786 +30 0.94514 0.925074 +31 0.977231 1.6493 +32 0.919527 5.82742 +33 0.972243 2.88061 +34 0.928892 7.61384 +35 0.947376 -0.644223 +36 0.875342 6.066 +38 0.970953 6.262 +40 0.918408 -3.27891 +41 0.913619 4.11288 +42 0.954083 2.21261 +43 0.993037 5.48924 +45 0.926406 -19.719 +46 1.00459 5.14574 +47 0.942483 5.54183 diff --git a/pccal/pc_gm_coeffs.dat b/pccal/pc_gm_coeffs.dat new file mode 100644 index 0000000..92d002f --- /dev/null +++ b/pccal/pc_gm_coeffs.dat @@ -0,0 +1,49 @@ +#Histogram Number Slope Intercept +0 0.937314 -16.871 +1 0 0 +2 0.965461 -1.54376 +3 0.926501 -3.27662 +4 0.905634 2.54577 +5 0.905634 -11.0387 +6 0.853919 6.23079 +7 0.945588 -9.54044 +8 0.884454 -11.8262 +9 0.922501 -3.42538 +10 0.903053 9.28069 +11 0.914653 9.87642 +12 0.965332 13.2526 +13 0.923847 -3.41775 +14 0.93845 25.9901 +15 0.955424 12.324 +16 0.95116 4.99595 +17 0.910745 2.86648 +18 0.941376 4.57217 +19 0.871622 932.111 +20 1.00624 7.86358 +21 0.969834 -45.001 +22 0.89304 -31.5635 +23 0.933226 4.02193 +24 0 0 +25 0.941896 6.16135 +26 0.980284 2.86886 +27 0.983166 -3.82952 +28 0.978704 -2.89713 +29 0.964947 2.25786 +30 0.94514 0.925074 +31 0.977231 1.6493 +32 0.919527 5.82742 +33 0.972243 2.88061 +34 0.928892 7.61384 +35 0.947376 -0.644223 +36 0.875342 6.066 +37 0 0 +38 0.970953 6.262 +39 0 0 +40 0.918408 -3.27891 +41 0.913619 4.11288 +42 0.954083 2.21261 +43 0.993037 5.48924 +44 0 0 +45 0.926406 -19.719 +46 1.00459 5.14574 +47 0.942483 5.54183 diff --git a/pccal/slope_intercept_26Al.dat b/pccal/slope_intercept_26Al.dat new file mode 100644 index 0000000..875aaec --- /dev/null +++ b/pccal/slope_intercept_26Al.dat @@ -0,0 +1,50 @@ +#Histogram Number Slope Intercept +#Histogram Number Slope Intercept +0 0.931015 -1.35431 +1 1 -1.87356e-10 +2 0.964185 1.49989 +3 0.92638 -1.30621 +4 0.905569 1.00834 +5 0.901182 0.470903 +6 0.853932 3.32687 +7 0.942785 1.08887 +8 0.878904 -0.0107433 +9 0.922662 -2.32259 +10 0.903343 8.38332 +11 0.914227 6.56108 +12 0.961008 23.0982 +13 0.920976 5.22104 +14 0.936584 31.5073 +15 0.959044 5.43267 +16 0.95263 -0.404053 +17 0.90953 4.82833 +18 0.940277 10.3629 +19 0.86746 -17.8678 +20 1.00683 4.76371 +21 0.968342 -43.9496 +22 0.892882 -32.0742 +23 0.933615 1.10704 +24 1 -2.89219e-10 +25 0.942098 -0.105169 +26 0.980862 -0.732032 +27 0.982975 -2.22704 +28 0.978815 -1.51477 +29 0.965245 -2.19515 +30 0.945384 -0.892599 +31 0.977408 -0.908592 +32 0.919546 3.25464 +33 0.972194 2.44956 +34 0.92852 5.44745 +35 0.947098 1.40531 +36 0.875491 -1.13145 +37 1 0 +38 0.970862 2.86019 +39 1 0 +40 0.91793 -3.80615 +41 0.913897 -2.12964 +42 0.954014 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zUb!k_9js|%i7JO0d?bQAVI0PEs%{coW?~-Vr-IrvD$9ecMlpq#zk;65ci(Y3}FXH>o-I`k0`{oD@WM5xoX(#Ba8V+n|b+s+)4k`k0ap_hF5itZAevN&=kU`{n32`EgP>H^1ojSE+=vroY# zRb-AP3!tZ(ZAElpXpZTRsg#f}u5USx)+jx8>b{-o{(mO9>0G09JZiMxn5MPgu?B|! zxba;{N@!z$=mMXbfW+pb&Z{3J#5Pt>dOvt3=7QgFb#X!eDWg}|2%mgd!)wjTQHd`b zGd?xXX5Yl8)vwOYcSLleWX1Ak#$xio4~iL1tP4o2&E{wL`S~o*P1N*U%OAf*pHbwz zxwJesMe6#JUNprD%3>^^+S9R5Ky@u2vYOz~;=y#W&ZSfjaAy zrN=b=@6-R>7Z`Lm1~8!DFXf=Z5Fo(&*SZMoJN&=2Ck!0X z|B@#N1+EA9HBV4vcOG*090`hG?-lr&1{}7FuOM)^(C%`=*bvX3>ms1oI}U!ygJZ*N ze#sL8q7Qz_L&C84Cj49u3Ew>qr10*wAOyqSiSTn>Ap~;QdE~k6m*v0tG_Ie`!wyz8eD(VeDH0KhXfF3jaF4Kx@0!8x(>B!ZCiSDFTL<7u7p&mcw)IA1b@n3pu$ij NjD($CUPFQ8{{b>Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run04.root; #alpha+gas 27Al -#root -q -b -x ../ANASEN_analysis/data/27Al_Data/Run_012_mapped.root -e 'tree->Process("MakeVertex.C+O")'; mv Analyzer_SX3.root results_run12.root; +root -q -b -x ../ANASEN_analysis/data/27Al_Data/Run_009_mapped.root -e 'tree->Process("MakeVertex.C+O")'; mv Analyzer_SX3.root results_run09.root; +root -q -b -x ../ANASEN_analysis/data/27Al_Data/Run_012_mapped.root -e 'tree->Process("MakeVertex.C+O")'; mv Analyzer_SX3.root results_run12.root; #protons+gas, 27Al -#root -q -b -x ../ANASEN_analysis/data/27Al_Data/Run_022_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run22.root; +root -q -b -x ../ANASEN_analysis/data/27Al_Data/Run_022_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run22.root; #root -q -b -x ../ANASEN_analysis/data/27Al_Data/Run_021_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run21.root; #27Al reaction data @@ -20,11 +21,15 @@ #root -l -x results_run19.root results_run12.root -e "new TBrowser" +#17F pulser runs +#root -q -l -b -x ../ANASEN_analysis/data/17F_Data/PulserRun_015_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run15.root; +#root -q -l -b -x ../ANASEN_analysis/data/17F_Data/PulserRun_016_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run16.root; +#root -q -l -b -x ../ANASEN_analysis/data/17F_Data/PulserRun_017_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run17.root; + #17F alpha run with gas -#root -q -l -b -x ../ANASEN_analysis/data/17F_Data/SourceRun_018_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run18.root; +root -q -l -b -x ../ANASEN_analysis/data/17F_Data/SourceRun_018_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run18.root; root -q -l -b -x ../ANASEN_analysis/data/17F_Data/SourceRun_019_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run19.root; -#root -q -l -b -x ../ANASEN_analysis/data/17F_Data/SourceRun_020_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run20.root; -#root -q -l -b -x ../ANASEN_analysis/data/17F_Data/SourceRun_021_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run21.root; +root -q -l -b -x ../ANASEN_analysis/data/17F_Data/SourceRun_020_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run20.root; +root -q -l -b -x ../ANASEN_analysis/data/17F_Data/SourceRun_021_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run21.root; #root -q -l -b -x ../ANASEN_analysis/data/17F_Data/Run_104_mapped.root -e 'tree->Process("MakeVertex.C+")'; mv Analyzer_SX3.root results_run104.root; #mv Analyzer_SX3.root results_run19.root; - diff --git a/scratch/25Mar26_17F_alpha+gaus/compare.C b/scratch/25Mar26_17F_alpha+gaus/compare.C new file mode 100644 index 0000000..d4d398e --- /dev/null +++ b/scratch/25Mar26_17F_alpha+gaus/compare.C @@ -0,0 +1,41 @@ +#include +int quit=0; +void handler(int signal){ quit=1;} +void compare() { + signal(SIGINT,handler); + TCanvas c; + c.SetLogz(); + TFile f18("../../results_run18.root"); + TFile f19("../../results_run19.root"); + TFile f20("../../results_run20.root"); + TFile f21("../../results_run21.root"); + TH2F *h18 = (TH2F*)(f18.Get("pcz_vs_sx3z")); + TH2F *h19 = (TH2F*)(f19.Get("pcz_vs_sx3z")); + TH2F *h20 = (TH2F*)(f20.Get("pcz_vs_sx3z")); + TH2F *h21 = (TH2F*)(f21.Get("pcz_vs_sx3z")); + + h18->GetYaxis()->SetRangeUser(-200,200); + h19->GetYaxis()->SetRangeUser(-200,200); + h20->GetYaxis()->SetRangeUser(-200,200); + h21->GetYaxis()->SetRangeUser(-200,200); + h18->GetXaxis()->SetRangeUser(0,100); + h19->GetXaxis()->SetRangeUser(0,100); + h20->GetXaxis()->SetRangeUser(0,100); + h21->GetXaxis()->SetRangeUser(0,100); + + while(!quit) { + h18->Draw("COLZ"); + gPad->Modified(); gPad->Update(); while(gPad->WaitPrimitive()); + h19->Draw("COLZ"); + gPad->Modified(); gPad->Update(); while(gPad->WaitPrimitive()); + h20->Draw("COLZ"); + gPad->Modified(); gPad->Update(); while(gPad->WaitPrimitive()); + h21->Draw("COLZ"); + gPad->Modified(); gPad->Update(); while(gPad->WaitPrimitive()); + } + + f18.Close(); + f19.Close(); + f20.Close(); + f21.Close(); +} diff --git a/scratch/25Mar26_17F_alpha+gaus/fit.log b/scratch/25Mar26_17F_alpha+gaus/fit.log new file mode 100644 index 0000000..b2bd6fd --- /dev/null +++ b/scratch/25Mar26_17F_alpha+gaus/fit.log @@ -0,0 +1,279 @@ + + +******************************************************************************* +Wed Mar 25 17:10:21 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 4 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +Warning: Initial value of parameter 'B' is zero. +iter chisq delta/lim lambda A B + 0 3.7754834810e+03 0.00e+00 2.97e+01 1.000000e+00 1.000000e-30 +BREAK: Singular matrix in Invert_RtR + +******************************************************************************* +Wed Mar 25 17:10:29 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 4 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +iter chisq delta/lim lambda A B + 0 3.5907054810e+03 0.00e+00 2.97e+01 1.000000e+00 1.000000e+00 + 5 9.9465658244e+01 -1.35e-03 2.97e-04 1.682744e+00 4.503012e+01 + +After 5 iterations the fit converged. +final sum of squares of residuals : 99.4657 +rel. change during last iteration : -1.34817e-08 + +degrees of freedom (FIT_NDF) : 2 +rms of residuals (FIT_STDFIT) = sqrt(WSSR/ndf) : 7.05215 +variance of residuals (reduced chisquare) = WSSR/ndf : 49.7328 + +Final set of parameters Asymptotic Standard Error +======================= ========================== +A = 1.68274 +/- 0.1265 (7.517%) +B = 45.0301 +/- 5.311 (11.79%) + +correlation matrix of the fit parameters: + A B +A 1.000 +B 0.748 1.000 + + +******************************************************************************* +Wed Mar 25 17:14:06 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 4 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +Warning: Initial value of parameter 'B' is zero. +iter chisq delta/lim lambda A B + 0 3.7754834810e+03 0.00e+00 3.38e+01 1.000000e+00 1.000000e-30 +BREAK: Singular matrix in Invert_RtR + +******************************************************************************* +Wed Mar 25 17:14:13 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 4 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +iter chisq delta/lim lambda A B + 0 3.9682614810e+03 0.00e+00 3.38e+01 1.000000e+00 1.000000e+00 + 5 3.4734096263e+01 -3.36e-04 3.38e-04 5.876258e-01 -2.681171e+01 + +After 5 iterations the fit converged. +final sum of squares of residuals : 34.7341 +rel. change during last iteration : -3.36116e-09 + +degrees of freedom (FIT_NDF) : 2 +rms of residuals (FIT_STDFIT) = sqrt(WSSR/ndf) : 4.16738 +variance of residuals (reduced chisquare) = WSSR/ndf : 17.367 + +Final set of parameters Asymptotic Standard Error +======================= ========================== +A = 0.587626 +/- 0.04417 (7.517%) +B = -26.8117 +/- 2.112 (7.877%) + +correlation matrix of the fit parameters: + A B +A 1.000 +B 0.163 1.000 + + +******************************************************************************* +Wed Mar 25 17:14:34 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 4 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +iter chisq delta/lim lambda A B + 0 3.9682614810e+03 0.00e+00 3.38e+01 1.000000e+00 1.000000e+00 + 5 3.4734096263e+01 -3.36e-04 3.38e-04 5.876258e-01 -2.681171e+01 + +After 5 iterations the fit converged. +final sum of squares of residuals : 34.7341 +rel. change during last iteration : -3.36116e-09 + +degrees of freedom (FIT_NDF) : 2 +rms of residuals (FIT_STDFIT) = sqrt(WSSR/ndf) : 4.16738 +variance of residuals (reduced chisquare) = WSSR/ndf : 17.367 + +Final set of parameters Asymptotic Standard Error +======================= ========================== +A = 0.587626 +/- 0.04417 (7.517%) +B = -26.8117 +/- 2.112 (7.877%) + +correlation matrix of the fit parameters: + A B +A 1.000 +B 0.163 1.000 + + +******************************************************************************* +Wed Mar 25 18:00:20 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 5 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +iter chisq delta/lim lambda A B + 0 4.3038838810e+03 0.00e+00 3.03e+01 1.000000e+00 1.000000e+00 + 5 7.7126310821e+01 -2.27e-05 3.03e-04 5.892187e-01 -2.534379e+01 + +After 5 iterations the fit converged. +final sum of squares of residuals : 77.1263 +rel. change during last iteration : -2.27353e-10 + +degrees of freedom (FIT_NDF) : 3 +rms of residuals (FIT_STDFIT) = sqrt(WSSR/ndf) : 5.07038 +variance of residuals (reduced chisquare) = WSSR/ndf : 25.7088 + +Final set of parameters Asymptotic Standard Error +======================= ========================== +A = 0.589219 +/- 0.05373 (9.119%) +B = -25.3438 +/- 2.301 (9.08%) + +correlation matrix of the fit parameters: + A B +A 1.000 +B 0.171 1.000 + + +******************************************************************************* +Wed Mar 25 18:00:37 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 4 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +iter chisq delta/lim lambda A B + 0 3.9682614810e+03 0.00e+00 3.38e+01 1.000000e+00 1.000000e+00 + 5 3.4734096263e+01 -3.36e-04 3.38e-04 5.876258e-01 -2.681171e+01 + +After 5 iterations the fit converged. +final sum of squares of residuals : 34.7341 +rel. change during last iteration : -3.36116e-09 + +degrees of freedom (FIT_NDF) : 2 +rms of residuals (FIT_STDFIT) = sqrt(WSSR/ndf) : 4.16738 +variance of residuals (reduced chisquare) = WSSR/ndf : 17.367 + +Final set of parameters Asymptotic Standard Error +======================= ========================== +A = 0.587626 +/- 0.04417 (7.517%) +B = -26.8117 +/- 2.112 (7.877%) + +correlation matrix of the fit parameters: + A B +A 1.000 +B 0.163 1.000 + + +******************************************************************************* +Wed Mar 25 18:00:50 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 5 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +iter chisq delta/lim lambda A B + 0 4.3038838810e+03 0.00e+00 3.03e+01 1.000000e+00 1.000000e+00 + 5 7.7126310821e+01 -2.27e-05 3.03e-04 5.892187e-01 -2.534379e+01 + +After 5 iterations the fit converged. +final sum of squares of residuals : 77.1263 +rel. change during last iteration : -2.27353e-10 + +degrees of freedom (FIT_NDF) : 3 +rms of residuals (FIT_STDFIT) = sqrt(WSSR/ndf) : 5.07038 +variance of residuals (reduced chisquare) = WSSR/ndf : 25.7088 + +Final set of parameters Asymptotic Standard Error +======================= ========================== +A = 0.589219 +/- 0.05373 (9.119%) +B = -25.3438 +/- 2.301 (9.08%) + +correlation matrix of the fit parameters: + A B +A 1.000 +B 0.171 1.000 + + +******************************************************************************* +Wed Mar 25 18:01:05 2026 + + +FIT: data read from 'first_test.txt' + format = z + #datapoints = 5 + residuals are weighted equally (unit weight) + +function used for fitting: A*x+B +fitted parameters initialized with current variable values + +iter chisq delta/lim lambda A B + 0 4.3038838810e+03 0.00e+00 3.03e+01 1.000000e+00 1.000000e+00 + 5 7.7126310821e+01 -2.27e-05 3.03e-04 5.892187e-01 -2.534379e+01 + +After 5 iterations the fit converged. +final sum of squares of residuals : 77.1263 +rel. change during last iteration : -2.27353e-10 + +degrees of freedom (FIT_NDF) : 3 +rms of residuals (FIT_STDFIT) = sqrt(WSSR/ndf) : 5.07038 +variance of residuals (reduced chisquare) = WSSR/ndf : 25.7088 + +Final set of parameters Asymptotic Standard Error +======================= ========================== +A = 0.589219 +/- 0.05373 (9.119%) +B = -25.3438 +/- 2.301 (9.08%) + +correlation matrix of the fit parameters: + A B +A 1.000 +B 0.171 1.000 diff --git a/scratch/25Mar26_17F_alpha+gaus/gnuplotter_first b/scratch/25Mar26_17F_alpha+gaus/gnuplotter_first new file mode 100644 index 0000000..9f9014f --- /dev/null +++ b/scratch/25Mar26_17F_alpha+gaus/gnuplotter_first @@ -0,0 +1,7 @@ +set term qt enhanced +set key top left +A=1; +B=1; +fit A*x+B 'first_test.txt' via A,B +plot 'first_test.txt' w p, A*x+B w l title 'fit' 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+ echo "offset_c1 = -4*k +"$i"*k - TMath::TwoPi()/48;" > testing.h + cd .. + bash run_sx3.sh + j=$(echo $i+3 | bc) + cp results_run12.root results_run12case$j.root + cd - + i=i+1 +done +echo "" > testing.h diff --git a/scratch/scan_phisearch.C b/scratch/scan_phisearch.C new file mode 100644 index 0000000..0003c49 --- /dev/null +++ b/scratch/scan_phisearch.C @@ -0,0 +1,20 @@ +{ + for(int i=-4; i<=5; i++) { + TFile *f = new TFile(Form("../results_run12case%d.root",i)); + TH2F *h2 = (TH2F*)(f->Get("phicut/pczguess_vs_pc_int")); +// TH2F *h2 = (TH2F*)(f->Get("pcz_vs_sx3pczguess")); +// TH2F *h2 = (TH2F*)(f->Get("hPCQQQ/PC_XY_Projection_QQQ2")); + h2->SetTitle(Form("case%d",i)); + h2->Draw("colz"); + gPad->Modified(); + gPad->Update(); + while(gPad->WaitPrimitive()); + + h2 = (TH2F*)(f->Get("hPCQQQ/PC_XY_Projection_QQQ3")); + h2->Draw("colz"); + gPad->Modified(); + gPad->Update(); + while(gPad->WaitPrimitive()); + f->Close(); + } +} diff --git a/scratch/test.dat b/scratch/test.dat new file mode 100644 index 0000000..277dd84 --- /dev/null +++ b/scratch/test.dat @@ -0,0 +1,7 @@ +1.00490190125271 1.81526549142349 +2.1078430941584 1.4359987348238 +3.02287578753202 1.14680783291655 +3.87254900280751 0.971396957989193 +4.67320260950942 0.852876096551793 +5.44117647716228 0.819690255349321 +6.02124184528305 0.800726917519336 diff --git a/scratch/testing.h b/scratch/testing.h new file mode 100644 index 0000000..8b13789 --- /dev/null +++ b/scratch/testing.h @@ -0,0 +1 @@ + diff --git a/scratch/testme.dat b/scratch/testme.dat new file mode 100644 index 0000000..c43f35e --- /dev/null +++ b/scratch/testme.dat @@ -0,0 +1,29 @@ +{ +//========= Macro generated from object: Graph/Graph +//========= by ROOT version6.36.04 + + std::vector graph_x_vect0{ 1.00490190125271, 2.107843094158404, 3.022875787532016, 3.872549002807514, 4.673202609509424, 5.441176477162277, 6.02124184528305 }; + std::vector graph_y_vect1{ 18152.65491423486, 14359.98734823804, 11468.07832916546, 9713.969579891931, 8528.760965517926, 8196.902553493204, 8007.269175193363 }; + TGraph *graph = new TGraph(7, graph_x_vect0.data(), graph_y_vect1.data()); + graph->SetName("Graph"); + graph->SetTitle("Graph"); + graph->SetFillStyle(1000); + + TH1F *Graph_histogram1 = new TH1F("Graph_histogram1", "Graph", 100, 0.4542482982760897, 6.473856231112497); + Graph_histogram1->SetMinimum(7324.589013313936); + Graph_histogram1->SetMaximum(19499.05190016373); + Graph_histogram1->SetDirectory(nullptr); + Graph_histogram1->SetStats(0); + Graph_histogram1->SetLineColor(TColor::GetColor("#000099")); + Graph_histogram1->GetXaxis()->SetLabelFont(42); + Graph_histogram1->GetXaxis()->SetTitleOffset(1); + Graph_histogram1->GetXaxis()->SetTitleFont(42); + Graph_histogram1->GetYaxis()->SetLabelFont(42); + Graph_histogram1->GetYaxis()->SetTitleFont(42); + Graph_histogram1->GetZaxis()->SetLabelFont(42); + Graph_histogram1->GetZaxis()->SetTitleOffset(1); + Graph_histogram1->GetZaxis()->SetTitleFont(42); + graph->SetHistogram(Graph_histogram1); + + graph->Draw(); +} diff --git a/slope_intercept_results.dat b/slope_intercept_results.dat index ae08dbb..a29898b 100644 --- a/slope_intercept_results.dat +++ b/slope_intercept_results.dat @@ -1,4 +1,4 @@ -Histogram Number Slope Intercept +#Histogram Number Slope Intercept 0 0.931015 -1.35431 1 1 -1.87356e-10 2 0.964185 1.49989 diff --git a/slope_intercept_results_17F.dat b/slope_intercept_results_17F.dat new file mode 100644 index 0000000..92d002f --- /dev/null +++ b/slope_intercept_results_17F.dat @@ -0,0 +1,49 @@ +#Histogram Number Slope Intercept +0 0.937314 -16.871 +1 0 0 +2 0.965461 -1.54376 +3 0.926501 -3.27662 +4 0.905634 2.54577 +5 0.905634 -11.0387 +6 0.853919 6.23079 +7 0.945588 -9.54044 +8 0.884454 -11.8262 +9 0.922501 -3.42538 +10 0.903053 9.28069 +11 0.914653 9.87642 +12 0.965332 13.2526 +13 0.923847 -3.41775 +14 0.93845 25.9901 +15 0.955424 12.324 +16 0.95116 4.99595 +17 0.910745 2.86648 +18 0.941376 4.57217 +19 0.871622 932.111 +20 1.00624 7.86358 +21 0.969834 -45.001 +22 0.89304 -31.5635 +23 0.933226 4.02193 +24 0 0 +25 0.941896 6.16135 +26 0.980284 2.86886 +27 0.983166 -3.82952 +28 0.978704 -2.89713 +29 0.964947 2.25786 +30 0.94514 0.925074 +31 0.977231 1.6493 +32 0.919527 5.82742 +33 0.972243 2.88061 +34 0.928892 7.61384 +35 0.947376 -0.644223 +36 0.875342 6.066 +37 0 0 +38 0.970953 6.262 +39 0 0 +40 0.918408 -3.27891 +41 0.913619 4.11288 +42 0.954083 2.21261 +43 0.993037 5.48924 +44 0 0 +45 0.926406 -19.719 +46 1.00459 5.14574 +47 0.942483 5.54183