Geant4 Cross Reference

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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 9.6.p4)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26 #include "G4LEPTSElasticModel.hh"                 
 27                                                   
 28 //....oooOO0OOooo........oooOO0OOooo........oo    
 29 G4LEPTSElasticModel::G4LEPTSElasticModel(const    
 30   : G4VLEPTSModel( modelName )                    
 31 {                                                 
 32   theXSType = XSElastic;                          
 33   fParticleChangeForGamma = nullptr;              
 34 } // constructor                                  
 35                                                   
 36                                                   
 37 //....oooOO0OOooo........oooOO0OOooo........oo    
 38 G4LEPTSElasticModel::~G4LEPTSElasticModel() =     
 39                                                   
 40                                                   
 41 //....oooOO0OOooo........oooOO0OOooo........oo    
 42 void G4LEPTSElasticModel::Initialise(const G4P    
 43                           const G4DataVector&)    
 44 {                                                 
 45   Init();                                         
 46   BuildPhysicsTable( *aParticle );                
 47                                                   
 48   fParticleChangeForGamma = GetParticleChangeF    
 49                                                   
 50   // static const G4double   proton_mass_c2 =     
 51   // static const G4double  neutron_mass_c2 =     
 52   // static const G4double h2o_mass_c2 = 8*neu    
 53   // G4cout << "mme " << h2o_mass_c2/MeV << "     
 54                                                   
 55   const G4MaterialTable * materialTable = G4Ma    
 56   std::vector<G4Material*>::const_iterator mat    
 57   for( matite = materialTable->begin(); matite    
 58     const G4Material * aMaterial = (*matite);     
 59     theMassTarget[aMaterial]  = theMolecularMa    
 60     theMassProjectile[aMaterial] = CLHEP::elec    
 61                                                   
 62     if( verboseLevel >= 1) G4cout << "Material    
 63        << " MTarget: " << theMassTarget[aMater    
 64   }                                               
 65                                                   
 66                                                   
 67 }                                                 
 68                                                   
 69 //....oooOO0OOooo........oooOO0OOooo........oo    
 70 G4double G4LEPTSElasticModel::CrossSectionPerV    
 71                                          const    
 72                                          G4dou    
 73                                          G4dou    
 74                                          G4dou    
 75 {                                                 
 76   if( kineticEnergy < theLowestEnergyLimit ) r    
 77   return 1./GetMeanFreePath( mate, aParticle,     
 78                                                   
 79 }                                                 
 80                                                   
 81                                                   
 82 //....oooOO0OOooo........oooOO0OOooo........oo    
 83 void G4LEPTSElasticModel::SampleSecondaries(st    
 84                                  const G4Mater    
 85                                  const G4Dynam    
 86                                  G4double,        
 87                                  G4double)        
 88 {                                                 
 89   G4double P0KinEn = aDynamicParticle->GetKine    
 90   G4ThreeVector P0Dir = aDynamicParticle->GetM    
 91                                                   
 92   if( P0KinEn < theLowestEnergyLimit ) {          
 93     fParticleChangeForGamma->ProposeMomentumDi    
 94     fParticleChangeForGamma->SetProposedKineti    
 95     fParticleChangeForGamma->ProposeLocalEnerg    
 96     fParticleChangeForGamma->ProposeTrackStatu    
 97     if( verboseLevel > 2 ) G4cout << " ENERGY     
 98     return;                                       
 99   }                                               
100                                                   
101   //-  G4ParticleDefinition * particleDefDef =    
102   //-  G4String partName = particleDefDef->Get    
103                                                   
104   //  G4ThreeVector pos, pos0, dpos;              
105                                                   
106   //-  G4StepPoG4int * PostPoG4int = aStep.Get    
107   //-  G4ThreeVector r = PostPoG4int->GetPosit    
108                                                   
109   //TypeOfInteraction=-10;                        
110                                                   
111   const G4Material* aMaterial = mateCuts->GetM    
112   G4double ang = SampleAngle(aMaterial, P0KinE    
113   G4ThreeVector P1Dir = SampleNewDirection(P0D    
114 #ifdef DEBUG_LEPTS                                
115   if( verboseLevel >= 2 ) G4cout << " G4LEPTSE    
116 #endif                                            
117                                                   
118   //G4ThreeVector P1Dir = SampleNewDirection(P    
119   //G4double  Energylost1= ElasticEnergyTransf    
120   G4double  Energylost = EnergyTransfer(P0KinE    
121   if( verboseLevel >= 3 ) G4cout << " ELASTIC     
122                                                   
123   G4double P1KinEn = P0KinEn - Energylost;        
124   if( verboseLevel >= 3 ) G4cout << " ELASTIC     
125 #ifdef DEBUG_LEPTS                                
126    if( verboseLevel >= 2 ) G4cout << " G4LEPTS    
127 #endif                                            
128   fParticleChangeForGamma->ProposeMomentumDire    
129   fParticleChangeForGamma->SetProposedKineticE    
130   fParticleChangeForGamma->ProposeLocalEnergyD    
131   //G4cout << "elasticEnergyLost: " << Energyl    
132                                                   
133 #ifdef DEBUG_LEPTS                                
134    if( verboseLevel >= 2 ) G4cout << " G4LEPTS    
135 #endif                                            
136 }                                                 
137                                                   
138 //....oooOO0OOooo........oooOO0OOooo........oo    
139 G4double G4LEPTSElasticModel::EnergyTransfer(G    
140 {                                                 
141   G4double co = std::cos(ang);                    
142   G4double si = std::sin(ang);                    
143                                                   
144   G4double W = ( (E+MP)*si*si + MT - co*std::s    
145     / ( std::pow((E+MP+MT),2) - E*co*co*(E+2*M    
146                                                   
147   //G4double W2 = 2*MP/MT*(1-co)*E;               
148   //G4cout << "WWWWWWWWW: " << W/E << " " << E    
149   //G4cout << "Mm " << MT/MeV << " " << MP/MeV    
150                                                   
151   return W;                                       
152 }                                                 
153                                                   
154