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Geant4/processes/electromagnetic/dna/models/src/G4LEPTSElasticModel.cc

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Diff markup

Differences between /processes/electromagnetic/dna/models/src/G4LEPTSElasticModel.cc (Version 11.3.0) and /processes/electromagnetic/dna/models/src/G4LEPTSElasticModel.cc (Version 10.2)


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 26 #include "G4LEPTSElasticModel.hh"                  26 #include "G4LEPTSElasticModel.hh"
 27                                                    27 
 28 //....oooOO0OOooo........oooOO0OOooo........oo     28 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 29 G4LEPTSElasticModel::G4LEPTSElasticModel(const     29 G4LEPTSElasticModel::G4LEPTSElasticModel(const G4String& modelName) 
 30   : G4VLEPTSModel( modelName )                     30   : G4VLEPTSModel( modelName )
 31 {                                                  31 {
 32   theXSType = XSElastic;                           32   theXSType = XSElastic;
 33   fParticleChangeForGamma = nullptr;           << 
 34 } // constructor                                   33 } // constructor
 35                                                    34 
 36                                                    35 
 37 //....oooOO0OOooo........oooOO0OOooo........oo     36 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 38 G4LEPTSElasticModel::~G4LEPTSElasticModel() =  <<  37 G4LEPTSElasticModel::~G4LEPTSElasticModel() {
                                                   >>  38 }
 39                                                    39 
 40                                                    40 
 41 //....oooOO0OOooo........oooOO0OOooo........oo     41 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 42 void G4LEPTSElasticModel::Initialise(const G4P     42 void G4LEPTSElasticModel::Initialise(const G4ParticleDefinition* aParticle, 
 43                           const G4DataVector&)     43                           const G4DataVector&)
 44 {                                                  44 {
 45   Init();                                          45   Init();
 46   BuildPhysicsTable( *aParticle );                 46   BuildPhysicsTable( *aParticle );
 47                                                    47 
 48   fParticleChangeForGamma = GetParticleChangeF     48   fParticleChangeForGamma = GetParticleChangeForGamma();
 49                                                    49   
 50   // static const G4double   proton_mass_c2 =      50   // static const G4double   proton_mass_c2 = 938.272013 * MeV;
 51   // static const G4double  neutron_mass_c2 =      51   // static const G4double  neutron_mass_c2 = 939.56536 * MeV;
 52   // static const G4double h2o_mass_c2 = 8*neu     52   // static const G4double h2o_mass_c2 = 8*neutron_mass_c2 + 10*(proton_mass_c2 + electron_mass_c2);
 53   // G4cout << "mme " << h2o_mass_c2/MeV << "      53   // G4cout << "mme " << h2o_mass_c2/MeV << " " << H2o_mass_c2/MeV << G4endl;
 54                                                    54    
 55   const G4MaterialTable * materialTable = G4Ma     55   const G4MaterialTable * materialTable = G4Material::GetMaterialTable() ;
 56   std::vector<G4Material*>::const_iterator mat     56   std::vector<G4Material*>::const_iterator matite;
 57   for( matite = materialTable->begin(); matite     57   for( matite = materialTable->begin(); matite != materialTable->end(); matite++ ) {
 58     const G4Material * aMaterial = (*matite);      58     const G4Material * aMaterial = (*matite);
 59     theMassTarget[aMaterial]  = theMolecularMa     59     theMassTarget[aMaterial]  = theMolecularMass[aMaterial] / (6.02214179e+23/CLHEP::mole) *CLHEP::c_light * CLHEP::c_light;
 60     theMassProjectile[aMaterial] = CLHEP::elec     60     theMassProjectile[aMaterial] = CLHEP::electron_mass_c2;
 61                                                    61 
 62     if( verboseLevel >= 1) G4cout << "Material     62     if( verboseLevel >= 1) G4cout << "Material: " << aMaterial->GetName() << " MolecularMass: " << theMolecularMass[aMaterial]/(CLHEP::g/CLHEP::mole) << " g/mole "
 63        << " MTarget: " << theMassTarget[aMater     63        << " MTarget: " << theMassTarget[aMaterial]/CLHEP::MeV << " MeV" << G4endl;
 64   }                                                64   }
 65                                                    65   
 66                                                    66 
 67 }                                                  67 }
 68                                                    68 
 69 //....oooOO0OOooo........oooOO0OOooo........oo     69 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 70 G4double G4LEPTSElasticModel::CrossSectionPerV     70 G4double G4LEPTSElasticModel::CrossSectionPerVolume(const G4Material* mate,
 71                                          const     71                                          const G4ParticleDefinition* aParticle,
 72                                          G4dou     72                                          G4double kineticEnergy,
 73                                          G4dou     73                                          G4double,
 74                                          G4dou     74                                          G4double)
 75 {                                                  75 {
 76   if( kineticEnergy < theLowestEnergyLimit ) r     76   if( kineticEnergy < theLowestEnergyLimit ) return DBL_MAX;
 77   return 1./GetMeanFreePath( mate, aParticle,      77   return 1./GetMeanFreePath( mate, aParticle, kineticEnergy );
 78                                                    78 
 79 }                                                  79 }
 80                                                    80 
 81                                                    81 
 82 //....oooOO0OOooo........oooOO0OOooo........oo     82 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 83 void G4LEPTSElasticModel::SampleSecondaries(st     83 void G4LEPTSElasticModel::SampleSecondaries(std::vector<G4DynamicParticle*>*,
 84                                  const G4Mater     84                                  const G4MaterialCutsCouple* mateCuts,
 85                                  const G4Dynam     85                                  const G4DynamicParticle* aDynamicParticle,
 86                                  G4double,         86                                  G4double,
 87                                  G4double)         87                                  G4double)
 88 {                                                  88 {
 89   G4double P0KinEn = aDynamicParticle->GetKine     89   G4double P0KinEn = aDynamicParticle->GetKineticEnergy();
 90   G4ThreeVector P0Dir = aDynamicParticle->GetM     90   G4ThreeVector P0Dir = aDynamicParticle->GetMomentumDirection();
 91                                                    91 
 92   if( P0KinEn < theLowestEnergyLimit ) {           92   if( P0KinEn < theLowestEnergyLimit ) {
 93     fParticleChangeForGamma->ProposeMomentumDi     93     fParticleChangeForGamma->ProposeMomentumDirection( P0Dir );
 94     fParticleChangeForGamma->SetProposedKineti     94     fParticleChangeForGamma->SetProposedKineticEnergy( 0.);
 95     fParticleChangeForGamma->ProposeLocalEnerg     95     fParticleChangeForGamma->ProposeLocalEnergyDeposit( P0KinEn);
 96     fParticleChangeForGamma->ProposeTrackStatu     96     fParticleChangeForGamma->ProposeTrackStatus(fStopAndKill);
 97     if( verboseLevel > 2 ) G4cout << " ENERGY      97     if( verboseLevel > 2 ) G4cout << " ENERGY LOW " << P0KinEn - theLowestEnergyLimit << G4endl;
 98     return;                                        98     return;
 99   }                                                99   }
100                                                   100 
101   //-  G4ParticleDefinition * particleDefDef =    101   //-  G4ParticleDefinition * particleDefDef = aTrack.GetDefinition();
102   //-  G4String partName = particleDefDef->Get    102   //-  G4String partName = particleDefDef->GetParticleName();
103                                                   103 
104   //  G4ThreeVector pos, pos0, dpos;              104   //  G4ThreeVector pos, pos0, dpos;
105                                                   105 
106   //-  G4StepPoG4int * PostPoG4int = aStep.Get    106   //-  G4StepPoG4int * PostPoG4int = aStep.GetPostStepPoG4int();
107   //-  G4ThreeVector r = PostPoG4int->GetPosit    107   //-  G4ThreeVector r = PostPoG4int->GetPosition();
108                                                   108 
109   //TypeOfInteraction=-10;                        109   //TypeOfInteraction=-10;
110                                                   110   
111   const G4Material* aMaterial = mateCuts->GetM    111   const G4Material* aMaterial = mateCuts->GetMaterial();
112   G4double ang = SampleAngle(aMaterial, P0KinE    112   G4double ang = SampleAngle(aMaterial, P0KinEn/CLHEP::eV, 0.0);
113   G4ThreeVector P1Dir = SampleNewDirection(P0D    113   G4ThreeVector P1Dir = SampleNewDirection(P0Dir, ang);
114 #ifdef DEBUG_LEPTS                                114 #ifdef DEBUG_LEPTS
115   if( verboseLevel >= 2 ) G4cout << " G4LEPTSE    115   if( verboseLevel >= 2 ) G4cout << " G4LEPTSElasticModel::SampleSecondaries( P1Dir " << P1Dir << " P0Dir " << P0Dir << " ang " << ang << G4endl;
116 #endif                                            116 #endif
117                                                   117 
118   //G4ThreeVector P1Dir = SampleNewDirection(P    118   //G4ThreeVector P1Dir = SampleNewDirection(P0Dir, P0KinEn/eV, 0.0);
119   //G4double  Energylost1= ElasticEnergyTransf    119   //G4double  Energylost1= ElasticEnergyTransferWater2(P0KinEn, ang);
120   G4double  Energylost = EnergyTransfer(P0KinE    120   G4double  Energylost = EnergyTransfer(P0KinEn, ang, theMassTarget[aMaterial], theMassProjectile[aMaterial]);
121   if( verboseLevel >= 3 ) G4cout << " ELASTIC     121   if( verboseLevel >= 3 ) G4cout << " ELASTIC Energylost "<< Energylost << " = " << P0KinEn << " " <<ang << " " << theMassTarget[aMaterial] << "  " << theMassProjectile[aMaterial] << G4endl; 
122                                                   122 
123   G4double P1KinEn = P0KinEn - Energylost;        123   G4double P1KinEn = P0KinEn - Energylost;
124   if( verboseLevel >= 3 ) G4cout << " ELASTIC     124   if( verboseLevel >= 3 ) G4cout << " ELASTIC " << P1KinEn << " = " << P0KinEn << " - " << Energylost << G4endl;
125 #ifdef DEBUG_LEPTS                                125 #ifdef DEBUG_LEPTS
126    if( verboseLevel >= 2 ) G4cout << " G4LEPTS    126    if( verboseLevel >= 2 ) G4cout << " G4LEPTSElasticModel::SampleSecondaries( SetProposedKineticEnergy " << P1KinEn << " " << P0KinEn << " - " << Energylost << G4endl;
127 #endif                                            127 #endif
128   fParticleChangeForGamma->ProposeMomentumDire    128   fParticleChangeForGamma->ProposeMomentumDirection( P1Dir );
129   fParticleChangeForGamma->SetProposedKineticE    129   fParticleChangeForGamma->SetProposedKineticEnergy( P1KinEn);
130   fParticleChangeForGamma->ProposeLocalEnergyD    130   fParticleChangeForGamma->ProposeLocalEnergyDeposit( Energylost);
131   //G4cout << "elasticEnergyLost: " << Energyl    131   //G4cout << "elasticEnergyLost: " << Energylost << G4endl;
132                                                   132 
133 #ifdef DEBUG_LEPTS                                133 #ifdef DEBUG_LEPTS
134    if( verboseLevel >= 2 ) G4cout << " G4LEPTS    134    if( verboseLevel >= 2 ) G4cout << " G4LEPTSElasticModel::SampleSecondaries( ProposeMomentumDirection " <<  fParticleChangeForGamma->GetProposedMomentumDirection() << G4endl;
135 #endif                                            135 #endif
136 }                                                 136 }
137                                                   137 
138 //....oooOO0OOooo........oooOO0OOooo........oo    138 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
139 G4double G4LEPTSElasticModel::EnergyTransfer(G    139 G4double G4LEPTSElasticModel::EnergyTransfer(G4double E, G4double ang, G4double MT, G4double MP) 
140 {                                                 140 {
141   G4double co = std::cos(ang);                    141   G4double co = std::cos(ang);
142   G4double si = std::sin(ang);                    142   G4double si = std::sin(ang);
143                                                   143 
144   G4double W = ( (E+MP)*si*si + MT - co*std::s    144   G4double W = ( (E+MP)*si*si + MT - co*std::sqrt(MT*MT-MP*MP*si*si) ) * E*(E+2*MP)
145     / ( std::pow((E+MP+MT),2) - E*co*co*(E+2*M    145     / ( std::pow((E+MP+MT),2) - E*co*co*(E+2*MP) );
146                                                   146 
147   //G4double W2 = 2*MP/MT*(1-co)*E;               147   //G4double W2 = 2*MP/MT*(1-co)*E;
148   //G4cout << "WWWWWWWWW: " << W/E << " " << E    148   //G4cout << "WWWWWWWWW: " << W/E << " " << E/W << " " << W2/W << G4endl;
149   //G4cout << "Mm " << MT/MeV << " " << MP/MeV    149   //G4cout << "Mm " << MT/MeV << " " << MP/MeV << G4endl;
150                                                   150 
151   return W;                                       151   return W;
152 }                                                 152 }
153                                                   153 
154                                                   154