accurate geometry for ANASEN_model

ANASEN_model.C

@@ -7,11 +7,10 @@
 
 #include "TMath.h"
 
-void ANASEN_model() {
+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", "3D Detector");
+  TGeoManager *geom = new TGeoManager("Detector", "ANASEN");
 
   //--- define some materials
   TGeoMaterial *matVacuum = new TGeoMaterial("Vacuum", 0,0,0);
@@ -21,13 +20,13 @@ void ANASEN_model() {
   TGeoMedium *Al = new TGeoMedium("Root Material",2, matAl);
 
   //--- make the top container volume 
-  Double_t worldx = 100.; //cm
-  Double_t worldy = 100.; //cm
-  Double_t worldz = 100.; //cm
+  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.)));
@@ -40,40 +39,67 @@ void ANASEN_model() {
   axisZ->SetLineColor(1);
   worldBox->AddNode(axisZ, 1, new TGeoTranslation(0, 0,  5));
 
+  //--- making ANASEN
   const int nWire = 24;
-  const int zLen = 15;
-  TGeoVolume *pcA = geom->MakeTube("tub1", Al, 0, 0.01, zLen);
+  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++){
-    worldBox->AddNode(pcA, i+1, new TGeoCombiTrans( 3.8 * TMath::Cos( TMath::TwoPi() / nWire *i), 
-                                                    3.8 * TMath::Sin( TMath::TwoPi() / nWire *i), 
+    if( 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), 20., 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, zLen);
+  TGeoVolume *pcC = geom->MakeTube("tub2", Al, 0, 0.01, wireCLength/2);
   pcC->SetLineColor(6);
   for( int i = 0; i < nWire; i++){
-    worldBox->AddNode(pcC, i+1, new TGeoCombiTrans( 4.3 * TMath::Cos( TMath::TwoPi() / nWire *i), 
-                                                    4.3 * TMath::Sin( TMath::TwoPi() / nWire *i), 
+    if( 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), -20., 0.)));
+                                                    new TGeoRotation("rot1", 360/ nWire * (i - wireShift/2.), -wireCTheta * 180/ TMath::Pi(), 0.)));
   }
 
   const int nSX3 = 12;
-  const int sx3Radius = 8.8;
-  TGeoVolume * sx3 = geom->MakeBox("box", Al, 0.1, 4.0/2, 7.5/2);
-  sx3->SetLineColor(2);
+  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), 
                                                        sx3Radius * TMath::Sin( TMath::TwoPi() / nSX3 *i), 
-                                                     8.0/2, 
+                                                     sx3Length/2+sx3Gap, 
                                                      new TGeoRotation("rot1", 360/nSX3 * (i), 0., 0.)));
 
     worldBox->AddNode(sx3, 2*i+2., new TGeoCombiTrans( sx3Radius* TMath::Cos( TMath::TwoPi() / nSX3 *i), 
                                                      sx3Radius * TMath::Sin( TMath::TwoPi() / nSX3 *i), 
-                                                     -8.0/2, 
+                                                     -sx3Length/2-sx3Gap, 
                                                      new TGeoRotation("rot1", 360/nSX3 * (i), 0., 0.)));
   }