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Geant4/processes/electromagnetic/adjoint/src/G4VAdjointReverseReaction.cc

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Diff markup

Differences between /processes/electromagnetic/adjoint/src/G4VAdjointReverseReaction.cc (Version 11.3.0) and /processes/electromagnetic/adjoint/src/G4VAdjointReverseReaction.cc (Version 10.7.p2)


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 25 //                                                 25 //
 26                                                <<  26 //
 27 #include "G4VAdjointReverseReaction.hh"            27 #include "G4VAdjointReverseReaction.hh"
 28                                                <<  28 #include "G4SystemOfUnits.hh"
 29 #include "G4AdjointCSManager.hh"                   29 #include "G4AdjointCSManager.hh"
 30 #include "G4ParticleChange.hh"                 <<  30 #include "G4AdjointCSMatrix.hh"
                                                   >>  31 #include "G4AdjointInterpolator.hh"
                                                   >>  32 #include "G4AdjointCSMatrix.hh"
 31 #include "G4VEmAdjointModel.hh"                    33 #include "G4VEmAdjointModel.hh"
                                                   >>  34 #include "G4ElementTable.hh"
                                                   >>  35 #include "G4Element.hh"
                                                   >>  36 #include "G4Material.hh"
                                                   >>  37 #include "G4MaterialCutsCouple.hh"
                                                   >>  38 #include "G4AdjointCSManager.hh"
                                                   >>  39 #include "G4ParticleChange.hh"
                                                   >>  40 #include "G4AdjointElectron.hh"
 32                                                    41 
 33 G4VAdjointReverseReaction::G4VAdjointReverseRe << 
 34                                                << 
 35   : G4VDiscreteProcess(process_name)           << 
 36 {                                              << 
 37   fCSManager        = G4AdjointCSManager::GetA << 
 38   fIsScatProjToProj = whichScatCase;           << 
 39   fParticleChange   = new G4ParticleChange();  << 
 40 }                                              << 
 41                                                    42 
                                                   >>  43 G4VAdjointReverseReaction::
                                                   >>  44   G4VAdjointReverseReaction(G4String process_name, G4bool whichScatCase):
                                                   >>  45       G4VDiscreteProcess(process_name)
                                                   >>  46 {theAdjointCSManager = G4AdjointCSManager::GetAdjointCSManager();
                                                   >>  47  IsScatProjToProjCase=whichScatCase;
                                                   >>  48  fParticleChange=new G4ParticleChange();
                                                   >>  49  IsFwdCSUsed=false;
                                                   >>  50  IsIntegralModeUsed=false;
                                                   >>  51  lastCS=0.;
                                                   >>  52  trackid = nstep = 0;
                                                   >>  53 }
 42 //////////////////////////////////////////////     54 //////////////////////////////////////////////////////////////////////////////
 43 G4VAdjointReverseReaction::~G4VAdjointReverseR <<  55 //
 44 {                                              <<  56 G4VAdjointReverseReaction::
 45   if(fParticleChange)                          <<  57   ~G4VAdjointReverseReaction()
 46     delete fParticleChange;                    <<  58 { if (fParticleChange) delete fParticleChange;
                                                   >>  59 }     
                                                   >>  60 //////////////////////////////////////////////////////////////////////////////
                                                   >>  61 //
                                                   >>  62 void G4VAdjointReverseReaction::PreparePhysicsTable(const G4ParticleDefinition&)
                                                   >>  63 {;
 47 }                                                  64 }
 48                                                << 
 49 //////////////////////////////////////////////     65 //////////////////////////////////////////////////////////////////////////////
                                                   >>  66 //
 50 void G4VAdjointReverseReaction::BuildPhysicsTa     67 void G4VAdjointReverseReaction::BuildPhysicsTable(const G4ParticleDefinition&)
 51 {                                                  68 {
 52   fCSManager->BuildCrossSectionMatrices();  // << 
 53   fCSManager->BuildTotalSigmaTables();         << 
 54 }                                              << 
 55                                                    69 
                                                   >>  70  theAdjointCSManager->BuildCrossSectionMatrices(); //do not worry it will be done just once
                                                   >>  71  theAdjointCSManager->BuildTotalSigmaTables();
                                                   >>  72 
                                                   >>  73 }
 56 //////////////////////////////////////////////     74 //////////////////////////////////////////////////////////////////////////////
 57 G4VParticleChange* G4VAdjointReverseReaction:: <<  75 //
 58                                                <<  76 G4VParticleChange* G4VAdjointReverseReaction::PostStepDoIt(const G4Track& track, const G4Step&  )
 59 {                                              <<  77 { 
                                                   >>  78   
 60   fParticleChange->Initialize(track);              79   fParticleChange->Initialize(track);
 61   fAdjointModel->SampleSecondaries(track, fIsS <<  80  
 62                                                <<  81  /* if (IsFwdCSUsed && IsIntegralModeUsed){ //INtegral mode still unstable
                                                   >>  82      G4double Tkin = step.GetPostStepPoint()->GetKineticEnergy();
                                                   >>  83      G4double fwdCS = theAdjointCSManager->GetTotalForwardCS(track.GetDefinition(), Tkin, track.GetMaterialCutsCouple());
                                                   >>  84    //G4cout<<"lastCS "<<lastCS<<G4endl;
                                                   >>  85    if (fwdCS<lastCS*G4UniformRand()) { // the reaction does not take place, same integral method as the one used for forward ionisation in  G4 
                                                   >>  86     ClearNumberOfInteractionLengthLeft();
                                                   >>  87       return fParticleChange;
                                                   >>  88    } 
                                                   >>  89    
                                                   >>  90   }
                                                   >>  91  */
                                                   >>  92  
                                                   >>  93   theAdjointEMModel->SampleSecondaries(track,
                                                   >>  94                                        IsScatProjToProjCase,
                                                   >>  95           fParticleChange);
                                                   >>  96   
 63   ClearNumberOfInteractionLengthLeft();            97   ClearNumberOfInteractionLengthLeft();
 64   return fParticleChange;                          98   return fParticleChange;
                                                   >>  99         
                                                   >> 100    
                                                   >> 101   
 65 }                                                 102 }
 66                                                << 
 67 //////////////////////////////////////////////    103 //////////////////////////////////////////////////////////////////////////////
                                                   >> 104 //
 68 G4double G4VAdjointReverseReaction::GetMeanFre    105 G4double G4VAdjointReverseReaction::GetMeanFreePath(const G4Track& track,
 69                                                << 106                                                        G4double ,
 70                                                << 107                                                        G4ForceCondition* condition)
 71 {                                              << 108 { *condition = NotForced;
 72   *condition                = NotForced;       << 
 73   G4double preStepKinEnergy = track.GetKinetic    109   G4double preStepKinEnergy = track.GetKineticEnergy();
 74                                                   110 
 75   if(track.GetTrackID() != fTrackId)           << 111   if(track.GetTrackID() != trackid) {
 76   {                                            << 112     trackid = track.GetTrackID();
 77     fTrackId = track.GetTrackID();             << 113     nstep = 0;
 78   }                                               114   }
 79   G4double sigma = fAdjointModel->AdjointCross << 115   ++nstep;  
 80     track.GetMaterialCutsCouple(), preStepKinE << 
 81                                                   116 
 82   G4double corr = fCSManager->GetCrossSectionC << 117 
 83     track.GetDefinition(), preStepKinEnergy, t << 118   
 84     fIsFwdCSUsed);                             << 119   /*G4double Sigma =
 85                                                << 120       theAdjointEMModel->AdjointCrossSection(track.GetMaterialCutsCouple(),preStepKinEnergy,IsScatProjToProjCase);*/
 86   if(std::fabs(corr) > 100.)                   << 121       
 87   {                                            << 122   G4double Sigma =
 88     sigma = 0.0;                               << 123       theAdjointEMModel->GetAdjointCrossSection(track.GetMaterialCutsCouple(),preStepKinEnergy,IsScatProjToProjCase); 
 89   }                                            << 124 
 90   else                                         << 125   //G4double sig = Sigma;
 91   {                                            << 126 
 92     sigma *= corr;                             << 127   G4double fwd_TotCS;
                                                   >> 128   G4double corr =  theAdjointCSManager->GetCrossSectionCorrection(track.GetDefinition(),preStepKinEnergy,track.GetMaterialCutsCouple(),IsFwdCSUsed, fwd_TotCS);
                                                   >> 129 
                                                   >> 130   if(std::fabs(corr) > 100.) { Sigma = 0.0; }
                                                   >> 131   else { Sigma *= corr; }
                                                   >> 132 
                                                   >> 133   //G4cout<<fwd_TotCS<<G4endl;
                                                   >> 134   /*if (IsFwdCSUsed && IsIntegralModeUsed){ //take the maximum cross section only for charged particle    
                                                   >> 135     G4double e_sigma_max, sigma_max;
                                                   >> 136   theAdjointCSManager->GetMaxFwdTotalCS(track.GetDefinition(),
                                                   >> 137                track.GetMaterialCutsCouple(), e_sigma_max, sigma_max);
                                                   >> 138   if (e_sigma_max > preStepKinEnergy){
                                                   >> 139     Sigma*=sigma_max/fwd_TotCS;
                                                   >> 140   }        
 93   }                                               141   }
                                                   >> 142   */    
 94                                                   143 
 95   G4double mean_free_path = 1.e60;             << 144   G4double mean_free_path = 1.e60 *mm; 
 96   if(sigma > 0.)                               << 145   if (Sigma>0) mean_free_path = 1./Sigma;
 97     mean_free_path = 1. / sigma;               << 146   lastCS=Sigma;
                                                   >> 147   /*
                                                   >> 148   if(nstep > 100) {
                                                   >> 149   
                                                   >> 150     G4cout << "#* " << track.GetDefinition()->GetParticleName()
                                                   >> 151      << " " << GetProcessName() 
                                                   >> 152      << " Nstep " << nstep 
                                                   >> 153      << " E(MeV)= " <<  preStepKinEnergy << "  Sig0= " << sig 
                                                   >> 154      << " sig1= " << Sigma << " mfp= " << mean_free_path << G4endl;
                                                   >> 155 
                                                   >> 156   } 
                                                   >> 157   if (nstep > 20000) {
                                                   >> 158     exit(1);
                                                   >> 159   }
                                                   >> 160   */
                                                   >> 161   /*G4cout<<"Sigma  "<<Sigma<<G4endl;
                                                   >> 162   G4cout<<"mean_free_path [mm] "<<mean_free_path/mm<<G4endl;
                                                   >> 163   */
                                                   >> 164   
 98                                                   165 
 99   return mean_free_path;                          166   return mean_free_path;
100 }                                              << 167 }          
101                                                   168