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Geant4/processes/hadronic/models/lend/src/G4LENDFission.cc

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Diff markup

Differences between /processes/hadronic/models/lend/src/G4LENDFission.cc (Version 11.3.0) and /processes/hadronic/models/lend/src/G4LENDFission.cc (Version 11.0)


  1 //                                                  1 //
  2 // *******************************************      2 // ********************************************************************
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 19 // * technical work of the GEANT4 collaboratio     19 // * technical work of the GEANT4 collaboration.                      *
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 24 // *******************************************     24 // ********************************************************************
 25 //                                                 25 //
 26 #include "G4LENDFission.hh"                        26 #include "G4LENDFission.hh"
 27 #include "G4SystemOfUnits.hh"                      27 #include "G4SystemOfUnits.hh"
 28 #include "G4Nucleus.hh"                            28 #include "G4Nucleus.hh"
 29 #include "G4IonTable.hh"                           29 #include "G4IonTable.hh"
 30                                                    30   
 31 G4HadFinalState * G4LENDFission::ApplyYourself     31 G4HadFinalState * G4LENDFission::ApplyYourself(const G4HadProjectile& aTrack, G4Nucleus& aTarg )
 32 {                                                  32 {
 33                                                    33 
 34    G4double temp = aTrack.GetMaterial()->GetTe     34    G4double temp = aTrack.GetMaterial()->GetTemperature();
 35                                                    35 
 36    //migrate to integer A and Z (GetN_asInt re     36    //migrate to integer A and Z (GetN_asInt returns number of neutrons in the nucleus since this) 
 37    G4int iZ = aTarg.GetZ_asInt();                  37    G4int iZ = aTarg.GetZ_asInt();
 38    G4int iA = aTarg.GetA_asInt();                  38    G4int iA = aTarg.GetA_asInt();
 39    //G4int iM = aTarg.GetM_asInt();                39    //G4int iM = aTarg.GetM_asInt();
 40    G4int iM = 0;                                   40    G4int iM = 0;
 41    if ( aTarg.GetIsotope() != NULL ) {             41    if ( aTarg.GetIsotope() != NULL ) {
 42       iM = aTarg.GetIsotope()->Getm();             42       iM = aTarg.GetIsotope()->Getm();
 43    }                                               43    }
 44                                                    44 
 45    G4double ke = aTrack.GetKineticEnergy();        45    G4double ke = aTrack.GetKineticEnergy();
 46                                                    46 
 47    G4HadFinalState* theResult = &theParticleCh     47    G4HadFinalState* theResult = &theParticleChange;
 48    theResult->Clear();                             48    theResult->Clear();
 49                                                    49 
 50    G4GIDI_target* aTarget = get_target_from_ma     50    G4GIDI_target* aTarget = get_target_from_map( lend_manager->GetNucleusEncoding( iZ , iA , iM ) );
 51    if ( aTarget == NULL ) return returnUnchang     51    if ( aTarget == NULL ) return returnUnchanged( aTrack , theResult );
 52    std::vector<G4GIDI_Product>* products = aTa     52    std::vector<G4GIDI_Product>* products = aTarget->getFissionFinalState( ke*MeV, temp, MyRNG, NULL );
 53    if ( products != NULL )                         53    if ( products != NULL ) 
 54    {                                               54    {
 55       for ( G4int j = 0; j < int( products->si     55       for ( G4int j = 0; j < int( products->size() ); j++ ) 
 56       {                                            56       {
 57          G4int jZ = (*products)[j].Z;              57          G4int jZ = (*products)[j].Z; 
 58          G4int jA = (*products)[j].A;              58          G4int jA = (*products)[j].A; 
 59          G4int jM = (*products)[j].m;              59          G4int jM = (*products)[j].m; 
 60                                                    60 
 61          //G4cout << "Z = "    << (*products)[     61          //G4cout << "Z = "    << (*products)[j].Z 
 62          //       << ", A = "  << (*products)[     62          //       << ", A = "  << (*products)[j].A 
 63          //       << ", EK = " << (*products)[     63          //       << ", EK = " << (*products)[j].kineticEnergy << " [MeV]" 
 64          //       << ", px = " << (*products)[     64          //       << ", px = " << (*products)[j].px
 65          //       << ", py = " << (*products)[     65          //       << ", py = " << (*products)[j].py
 66          //       << ", pz = " << (*products)[     66          //       << ", pz = " << (*products)[j].pz
 67          //       << ", birthTimeSec = " << (*     67          //       << ", birthTimeSec = " << (*products)[j].birthTimeSec << " [second]" 
 68          //       << G4endl;                       68          //       << G4endl;
 69                                                    69 
 70          G4DynamicParticle* theSec = new G4Dyn     70          G4DynamicParticle* theSec = new G4DynamicParticle;
 71                                                    71 
 72          if ( jZ > 0 )                             72          if ( jZ > 0 )
 73          {                                         73          {
 74             theSec->SetDefinition( G4IonTable:     74             theSec->SetDefinition( G4IonTable::GetIonTable()->GetIon( jZ, jA , jM ) );
 75          }                                         75          } 
 76          else if ( jA == 1 && jZ == 0 )            76          else if ( jA == 1 && jZ == 0 )
 77          {                                         77          {
 78             theSec->SetDefinition( G4Neutron::     78             theSec->SetDefinition( G4Neutron::Neutron() );
 79          }                                         79          } 
 80          else                                      80          else
 81          {                                         81          {
 82             theSec->SetDefinition( G4Gamma::Ga     82             theSec->SetDefinition( G4Gamma::Gamma() );
 83          }                                         83          } 
 84                                                    84 
 85          theSec->SetMomentum( G4ThreeVector( (     85          theSec->SetMomentum( G4ThreeVector( (*products)[j].px*MeV , (*products)[j].py*MeV , (*products)[j].pz*MeV ) );
 86          //G4cout << theSec->GetDefinition()->     86          //G4cout << theSec->GetDefinition()->GetParticleName() << G4endl;
 87          theResult->AddSecondary( theSec, secI     87          theResult->AddSecondary( theSec, secID );
 88          //Set time for delayed neutrons           88          //Set time for delayed neutrons
 89          //Current implementation is a little      89          //Current implementation is a little tricky, 
 90          if ( (*products)[j].birthTimeSec != 0     90          if ( (*products)[j].birthTimeSec != 0 ) {
 91             G4double time = (*products)[j].bir     91             G4double time = (*products)[j].birthTimeSec*second + aTrack.GetGlobalTime();
 92             theResult->GetSecondary(theResult-     92             theResult->GetSecondary(theResult->GetNumberOfSecondaries()-1)->SetTime(time);
 93          }                                         93          }
 94       }                                            94       } 
 95    }                                               95    }
 96    delete products;                                96    delete products;
 97                                                    97 
 98    theResult->SetStatusChange( stopAndKill );      98    theResult->SetStatusChange( stopAndKill );
 99                                                    99 
100    return theResult;                              100    return theResult; 
101                                                   101 
102 }                                                 102 }
103 const std::pair<G4double, G4double> G4LENDFiss    103 const std::pair<G4double, G4double> G4LENDFission::GetFatalEnergyCheckLevels() const
104 {                                                 104 {
105         // max energy non-conservation is mass    105         // max energy non-conservation is mass of heavy nucleus
106         //return std::pair<G4double, G4double>    106         //return std::pair<G4double, G4double>(5*perCent,250*GeV);
107         return std::pair<G4double, G4double>(5    107         return std::pair<G4double, G4double>(5*perCent,DBL_MAX);
108 }                                                 108 }
109                                                   109