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11 changed files with 119 additions and 87 deletions

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@ -369,7 +369,7 @@ namespace EventBuilder {
startIndex = 0; startIndex = 0;
CoincEvent this_event; CoincEvent this_event;
SlowSort coincidizer(m_params.slowCoincidenceWindow, m_params.channelMapFile); SlowSort coincidizer(m_params.slowCoincidenceWindow, m_params.channelMapFile);
SFPAnalyzer analyzer(m_params.ZT, m_params.AT, m_params.ZP, m_params.AP, m_params.ZE, m_params.AE, m_params.beamEnergy, m_params.spsAngle, m_params.BField); SFPAnalyzer analyzer(m_params);
std::vector<TParameter<Double_t>> parvec; std::vector<TParameter<Double_t>> parvec;
parvec.reserve(9); parvec.reserve(9);
@ -459,7 +459,7 @@ namespace EventBuilder {
std::vector<CoincEvent> fast_events; std::vector<CoincEvent> fast_events;
SlowSort coincidizer(m_params.slowCoincidenceWindow, m_params.channelMapFile); SlowSort coincidizer(m_params.slowCoincidenceWindow, m_params.channelMapFile);
FastSort speedyCoincidizer(m_params.fastCoincidenceWindowSABRE, m_params.fastCoincidenceWindowIonCh); FastSort speedyCoincidizer(m_params.fastCoincidenceWindowSABRE, m_params.fastCoincidenceWindowIonCh);
SFPAnalyzer analyzer(m_params.ZT, m_params.AT, m_params.ZP, m_params.AP, m_params.ZE, m_params.AE, m_params.beamEnergy, m_params.spsAngle, m_params.BField); SFPAnalyzer analyzer(m_params);
std::vector<TParameter<Double_t>> parvec; std::vector<TParameter<Double_t>> parvec;
parvec.reserve(9); parvec.reserve(9);

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@ -72,6 +72,7 @@ namespace EventBuilder {
m_params.BField = data["BField(kG)"].as<double>(); m_params.BField = data["BField(kG)"].as<double>();
m_params.beamEnergy = data["BeamEnergy(MeV)"].as<double>(); m_params.beamEnergy = data["BeamEnergy(MeV)"].as<double>();
m_params.spsAngle = data["SPSAngle(deg)"].as<double>(); m_params.spsAngle = data["SPSAngle(deg)"].as<double>();
m_params.nudge = data["Nudge(cm)"].as<double>();
m_params.runMin = data["MinRun"].as<int>(); m_params.runMin = data["MinRun"].as<int>();
m_params.runMax = data["MaxRun"].as<int>(); m_params.runMax = data["MaxRun"].as<int>();
@ -116,6 +117,7 @@ namespace EventBuilder {
yamlStream << YAML::Key << "BField(kG)" << YAML::Value << m_params.BField; yamlStream << YAML::Key << "BField(kG)" << YAML::Value << m_params.BField;
yamlStream << YAML::Key << "BeamEnergy(MeV)" << YAML::Value << m_params.beamEnergy; yamlStream << YAML::Key << "BeamEnergy(MeV)" << YAML::Value << m_params.beamEnergy;
yamlStream << YAML::Key << "SPSAngle(deg)" << YAML::Value << m_params.spsAngle; yamlStream << YAML::Key << "SPSAngle(deg)" << YAML::Value << m_params.spsAngle;
yamlStream << YAML::Key << "Nudge(cm)" << YAML::Value << m_params.nudge;
yamlStream << YAML::Key << "MinRun" << YAML::Value << m_params.runMin; yamlStream << YAML::Key << "MinRun" << YAML::Value << m_params.runMin;
yamlStream << YAML::Key << "MaxRun" << YAML::Value << m_params.runMax; yamlStream << YAML::Key << "MaxRun" << YAML::Value << m_params.runMax;
yamlStream << YAML::EndMap; yamlStream << YAML::EndMap;

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@ -28,6 +28,8 @@ namespace EventBuilder {
double BField = 7.8; //kG double BField = 7.8; //kG
double spsAngle = 15.0; //degrees double spsAngle = 15.0; //degrees
double beamEnergy = 16.0; //MeV double beamEnergy = 16.0; //MeV
double nudge = 0.0; //User FP offset factor, cm
}; };
} }

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@ -39,68 +39,63 @@ namespace EventBuilder {
//requires (Z,A) for T, P, and E, as well as energy of P, //requires (Z,A) for T, P, and E, as well as energy of P,
// spectrograph angle of interest, and field value // spectrograph angle of interest, and field value
double Delta_Z(int ZT, int AT, int ZP, int AP, int ZE, int AE, double DeltaZ(int ZT, int AT, int ZP, int AP, int ZE, int AE,
double EP, double angle, double B) double EP, double angle, double B, double nudge)
{ {
/* CONSTANTS */ /* CONSTANTS */
const double UTOMEV = 931.4940954; //MeV per u; static constexpr double s_speedOfLight = 2.9979E8; //m/s
const double MEVTOJ = 1.60218E-13; //J per MeV static constexpr double s_qbrho2p = s_speedOfLight * 1.0e-9; //Converts QBrho -> p (kG cm -> MeV)
const double RESTMASS_ELECTRON = 0.000548579909; //amu
const double UNIT_CHARGE = 1.602E-19; //Coulombs
const double C = 2.9979E8; //m/s
/* SESPS-SPECIFIC */ /* SESPS-SPECIFIC */
const double DISP = 1.96; //dispersion (x/rho) static constexpr double s_dispersion = 1.96; //dispersion (x/rho)
const double MAG = 0.39; //magnification in x static constexpr double s_magnification = 0.39; //magnification in x
const double DEGTORAD = M_PI/180.; static constexpr double s_deg2rad = M_PI/180.;
static constexpr double s_centralTrajAngle = 45.0 * s_deg2rad; //Central trajectory angle to detector plane
int ZR = ZT + ZP - ZE, AR = AT + AP - AE; int ZR = ZT + ZP - ZE;
double EE=0; //ejectile energy int AR = AT + AP - AE;
double ejectileEnergy = 0.0; //ejectile energy
double MT=0, MP=0, ME=0, MR=0; //masses (MeV) angle *= s_deg2rad;
B /= 10000; //convert to tesla //reactant masses
angle *= DEGTORAD; auto masses = MassLookup::GetInstance();
double mt = masses.FindMass(ZT, AT);
MT = MASS.FindMass(ZT, AT); double mp = masses.FindMass(ZP, AP);
MP = MASS.FindMass(ZP, AP); double me = masses.FindMass(ZE, AE);
ME = MASS.FindMass(ZE, AE); double mr = masses.FindMass(ZR, AR);
MR = MASS.FindMass(ZR, AR);
if (MT*MP*ME*MR == 0) if (
MassLookup::IsInvalidMass(mt) ||
MassLookup::IsInvalidMass(mp) ||
MassLookup::IsInvalidMass(me) ||
MassLookup::IsInvalidMass(mr)
)
{ {
EVB_WARN("Illegal mass at FP_kinematics::Delta_Z! Returning offset of 0."); EVB_WARN("Illegal mass at FP_kinematics::Delta_Z! Returning offset of 0.");
return 0; return 0;
} }
double Q = MT + MP - ME - MR; //Q-value double Q = mt + mp - me - mr; //Q-value
//kinematics a la Iliadis p.590 //kinematics a la Iliadis p.590
double term1 = sqrt(MP*ME*EP)/(ME + MR)*cos(angle); double term1 = std::sqrt(mp*me*EP)/(me + mr)*std::cos(angle);
double term2 = (EP*(MR - MP) + MR*Q)/(ME + MR); double term2 = (EP*(mr - mp) + mr*Q)/(me + mr);
EE = term1 + sqrt(term1*term1 + term2); ejectileEnergy = term1 + std::sqrt(term1*term1 + term2);
EE *= EE; ejectileEnergy *= ejectileEnergy;
//momentum //momentum
double PE = sqrt(EE*(EE+2*ME)); double ejectileP = std::sqrt(ejectileEnergy * (ejectileEnergy + 2.0*me));
//calculate rho from B a la B*rho = (proj. momentum)/(proj. charge) //calculate rho from B a la B*rho = (proj. momentum)/(proj. charge)
double rho = (PE*MEVTOJ)/(ZE*UNIT_CHARGE*C*B)*100; //in cm double rho = ejectileP / (ZE * B * s_qbrho2p ); //in cm
//kinematic factor K
double K; double K = (std::sqrt(mp*me*EP / ejectileEnergy) * std::sin(angle)) /
(me + mr - std::sqrt(mp*me*EP / ejectileEnergy) * std::cos(angle));
K = sqrt(MP*ME*EP/EE);
K *= sin(angle); return -1.0*rho*s_dispersion*s_magnification*K * std::cos(s_centralTrajAngle) + nudge; //delta-Z in cm
double denom = ME + MR - sqrt(MP*ME*EP/EE)*cos(angle);
K /= denom;
return -1*rho*DISP*MAG*K; //delta-Z in cm
} }
double Wire_Dist() {return 4.28625;} //cm
} }

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@ -27,6 +27,8 @@
KGH -- Jul19 KGH -- Jul19
B now in kG -- GWM 2023
*/ */
#ifndef FP_KINEMATICS #ifndef FP_KINEMATICS
@ -36,10 +38,10 @@ namespace EventBuilder {
//requires (Z,A) for T, P, and E, as well as energy of P, //requires (Z,A) for T, P, and E, as well as energy of P,
// spectrograph angle of interest, and field value // spectrograph angle of interest, and field value
double Delta_Z(int ZT, int AT, int ZP, int AP, int ZE, int AE, double DeltaZ(int ZT, int AT, int ZP, int AP, int ZE, int AE,
double EP, double angle, double B); double EP, double angle, double B, double nudge = 0);
double Wire_Dist(); static constexpr double WireDist() { return 4.28625; } //cm
} }

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@ -11,6 +11,9 @@ Written by G.W. McCann Aug. 2020
#include "MassLookup.h" #include "MassLookup.h"
namespace EventBuilder { namespace EventBuilder {
//instantiate
MassLookup* MassLookup::s_instance = new MassLookup();
/* /*
Read in AMDC mass file, preformated to remove excess info. Here assumes that by default Read in AMDC mass file, preformated to remove excess info. Here assumes that by default
@ -28,18 +31,19 @@ namespace EventBuilder {
std::ifstream massfile(filepath); std::ifstream massfile(filepath);
if(massfile.is_open()) if(massfile.is_open())
{ {
int Z,A; std::string junk, element;
std::string junk, element, key; NuclearData data;
double atomicMassBig, atomicMassSmall, isotopicMass; double atomicMassBig, atomicMassSmall;
uint32_t id;
std::getline(massfile,junk); std::getline(massfile,junk);
std::getline(massfile,junk); std::getline(massfile,junk);
while(massfile>>junk) while(massfile>>junk)
{ {
massfile>>Z>>A>>element>>atomicMassBig>>atomicMassSmall; massfile >> data.z >> data.a >> element >> atomicMassBig >> atomicMassSmall;
isotopicMass = (atomicMassBig + atomicMassSmall*1e-6 - Z*electron_mass)*u_to_mev; data.isotopicMass = (atomicMassBig + atomicMassSmall*1e-6 - data.z*s_electronMass)*s_u2MeV;
key = "("+std::to_string(Z)+","+A+")"; data.isotopicSymbol = fmt::format("{}{}", data.a, element);
massTable[key] = isotopicMass; id = GetIsotopeID(data.z, data.a);
elementTable[Z] = element; m_dataMap[id] = data;
} }
} }
else else
@ -49,28 +53,28 @@ namespace EventBuilder {
MassLookup::~MassLookup() {} MassLookup::~MassLookup() {}
//Returns nuclear mass in MeV //Returns nuclear mass in MeV
double MassLookup::FindMass(int Z, int A) double MassLookup::FindMass(uint32_t Z, uint32_t A)
{ {
std::string key = "("+std::to_string(Z)+","+std::to_string(A)+")"; uint32_t id = GetIsotopeID(Z, A);
auto data = massTable.find(key); auto data = m_dataMap.find(id);
if(data == massTable.end()) if(data == m_dataMap.end())
{ {
EVB_WARN("Invalid nucleus (Z,A) ({0},{1}) at MassLookup::FindMass; returning zero.",Z,A); EVB_WARN("Invalid nucleus (Z,A) ({0},{1}) at MassLookup::FindMass; returning invalid.",Z,A);
return 0; return s_invalidMass;
} }
return data->second; return data->second.isotopicMass;
} }
//returns element symbol //returns element symbol
std::string MassLookup::FindSymbol(int Z, int A) std::string MassLookup::FindSymbol(uint32_t Z, uint32_t A)
{ {
auto data = elementTable.find(Z); uint32_t id = GetIsotopeID(Z, A);
if(data == elementTable.end()) auto data = m_dataMap.find(id);
if(data == m_dataMap.end())
{ {
EVB_WARN("Invalid nucleus (Z,A) ({0},{1}) at MassLookup::FindSymbol; returning empty string.",Z,A); EVB_WARN("Invalid nucleus (Z,A) ({0},{1}) at MassLookup::FindSymbol; returning Invalid.",Z,A);
return ""; return s_invalidSymbol;
} }
std::string fullsymbol = std::to_string(A) + data->second; return data->second.isotopicSymbol;
return fullsymbol;
} }
} }

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@ -7,33 +7,50 @@ of this map (MASS) for use throughout code it is included into.
Written by G.W. McCann Aug. 2020 Written by G.W. McCann Aug. 2020
Updated for better code practices and real singleton usage GWM 2023
*/ */
#ifndef MASS_LOOKUP_H #ifndef MASS_LOOKUP_H
#define MASS_LOOKUP_H #define MASS_LOOKUP_H
namespace EventBuilder { namespace EventBuilder {
static constexpr uint32_t GetIsotopeID(uint32_t z, uint32_t a)
{
return z >= a ? z*z + z + a : a*a + z;
}
struct NuclearData
{
std::string isotopicSymbol = "";
double isotopicMass = 0.0;
uint32_t z = 0;
uint32_t a = 0;
};
class MassLookup class MassLookup
{ {
public: public:
MassLookup();
~MassLookup(); ~MassLookup();
double FindMass(int Z, int A); double FindMass(uint32_t Z, uint32_t A);
std::string FindSymbol(int Z, int A); std::string FindSymbol(uint32_t Z, uint32_t A);
static MassLookup& GetInstance() { return *s_instance; }
static bool IsInvalidMass(double mass) { return mass == s_invalidMass; }
static bool IsInvalidSymbol(const std::string& sym) { return sym == s_invalidSymbol; }
private: private:
std::unordered_map<std::string, double> massTable; MassLookup();
std::unordered_map<int, std::string> elementTable; std::unordered_map<uint32_t, NuclearData> m_dataMap;
static MassLookup* s_instance;
//constants //constants
static constexpr double u_to_mev = 931.4940954; static constexpr double s_u2MeV = 931.4940954; // U to MeV
static constexpr double electron_mass = 0.000548579909; static constexpr double s_electronMass = 0.000548579909; // electron mass in u
static constexpr double s_invalidMass = -1.0; //Invalid mass in MeV
static constexpr char s_invalidSymbol[] = "Invalid"; //Invalid isotope symbol
}; };
//static instance for use throught program
static MassLookup MASS;
} }
#endif #endif

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@ -14,10 +14,11 @@
namespace EventBuilder { namespace EventBuilder {
/*Constructor takes in kinematic parameters for generating focal plane weights*/ /*Constructor takes in kinematic parameters for generating focal plane weights*/
SFPAnalyzer::SFPAnalyzer(int zt, int at, int zp, int ap, int ze, int ae, double ep, SFPAnalyzer::SFPAnalyzer(const EVBParameters& params)
double angle, double b)
{ {
zfp = Delta_Z(zt, at, zp, ap, ze, ae, ep, angle, b*1000.0); //Convert kG to G zfp = DeltaZ(params.ZT, params.AT, params.ZP, params.AP, params.ZE, params.AE, params.beamEnergy,
params.spsAngle, params.BField, params.nudge);
EVB_INFO("Focal Plane Z-Offset (nudge + kinematics): {}", zfp);
event_address = new CoincEvent(); event_address = new CoincEvent();
rootObj = new THashTable(); rootObj = new THashTable();
GetWeights(); GetWeights();
@ -42,7 +43,7 @@ namespace EventBuilder {
*/ */
void SFPAnalyzer::GetWeights() void SFPAnalyzer::GetWeights()
{ {
w1 = (Wire_Dist()/2.0-zfp)/Wire_Dist(); w1 = (WireDist()/2.0-zfp)/WireDist();
w2 = 1.0-w1; w2 = 1.0-w1;
EVB_INFO("Calculated X-Avg weights of w1={0} and w2={1}",w1,w2); EVB_INFO("Calculated X-Avg weights of w1={0} and w2={1}",w1,w2);
} }

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@ -12,14 +12,14 @@
#include "DataStructs.h" #include "DataStructs.h"
#include "FP_kinematics.h" #include "FP_kinematics.h"
#include "EVBParameters.h"
namespace EventBuilder { namespace EventBuilder {
class SFPAnalyzer class SFPAnalyzer
{ {
public: public:
SFPAnalyzer(int zt, int at, int zp, int ap, int ze, int ae, double ep, double angle, SFPAnalyzer(const EVBParameters& params);
double b);
~SFPAnalyzer(); ~SFPAnalyzer();
ProcessedEvent GetProcessedEvent(CoincEvent& event); ProcessedEvent GetProcessedEvent(CoincEvent& event);
inline void ClearHashTable() { rootObj->Clear(); } inline void ClearHashTable() { rootObj->Clear(); }

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@ -145,9 +145,15 @@ EVBMainFrame::EVBMainFrame(const TGWindow* p, UInt_t w, UInt_t h) :
fThetaField = new TGNumberEntryField(thetaFrame, Theta, 0, TGNumberEntry::kNESRealFour, TGNumberEntry::kNEANonNegative); fThetaField = new TGNumberEntryField(thetaFrame, Theta, 0, TGNumberEntry::kNESRealFour, TGNumberEntry::kNEANonNegative);
thetaFrame->AddFrame(thetalabel, lhints); thetaFrame->AddFrame(thetalabel, lhints);
thetaFrame->AddFrame(fThetaField, fhints); thetaFrame->AddFrame(fThetaField, fhints);
TGHorizontalFrame* nudgeFrame = new TGHorizontalFrame(extraFrame, w*0.175, h*0.15);
TGLabel* nudgeLabel = new TGLabel(nudgeFrame, "Nudge (cm):");
fNudgeField = new TGNumberEntryField(nudgeFrame, Nudge, 0, TGNumberEntry::kNESRealFour);
nudgeFrame->AddFrame(nudgeLabel, lhints);
nudgeFrame->AddFrame(fNudgeField, fhints);
extraFrame->AddFrame(beamFrame, fhints); extraFrame->AddFrame(beamFrame, fhints);
extraFrame->AddFrame(bfFrame, fhints); extraFrame->AddFrame(bfFrame, fhints);
extraFrame->AddFrame(thetaFrame, fhints); extraFrame->AddFrame(thetaFrame, fhints);
extraFrame->AddFrame(nudgeFrame, fhints);
reactionFrame->AddFrame(targFrame, fhints); reactionFrame->AddFrame(targFrame, fhints);
reactionFrame->AddFrame(projFrame, fhints); reactionFrame->AddFrame(projFrame, fhints);
@ -399,7 +405,8 @@ bool EVBMainFrame::SetParameters()
m_parameters.BField = fBField->GetNumber(); m_parameters.BField = fBField->GetNumber();
m_parameters.beamEnergy = fBKEField->GetNumber(); m_parameters.beamEnergy = fBKEField->GetNumber();
m_parameters.spsAngle = fThetaField->GetNumber(); m_parameters.spsAngle = fThetaField->GetNumber();
m_parameters.nudge = fNudgeField->GetNumber();
m_builder.SetParameters(m_parameters); m_builder.SetParameters(m_parameters);
return true; return true;
} }

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@ -67,6 +67,7 @@ public:
TypeBox, TypeBox,
RMin, RMin,
RMax, RMax,
Nudge,
M_Load_Config, M_Load_Config,
M_Save_Config, M_Save_Config,
M_Exit M_Exit
@ -85,6 +86,7 @@ private:
TGNumberEntryField *fBField, *fBKEField, *fThetaField; TGNumberEntryField *fBField, *fBKEField, *fThetaField;
TGNumberEntryField *fSlowWindowField, *fFastICField, *fFastSABREField; TGNumberEntryField *fSlowWindowField, *fFastICField, *fFastSABREField;
TGNumberEntryField *fRMinField, *fRMaxField; TGNumberEntryField *fRMinField, *fRMaxField;
TGNumberEntryField *fNudgeField;
TGHProgressBar* fProgressBar; TGHProgressBar* fProgressBar;