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Geant4/processes/hadronic/models/fission/src/G4FissLib.cc

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Diff markup

Differences between /processes/hadronic/models/fission/src/G4FissLib.cc (Version 11.3.0) and /processes/hadronic/models/fission/src/G4FissLib.cc (Version 11.1.2)


  1 //                                                  1 //
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 47 // WHETHER IN CONTRACT, STRICT LIABILITY, OR T     47 // WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
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 49 // ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.      49 // ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 50 //                                                 50 //
 51 // Copyright (c) 2006 The Regents of the Unive     51 // Copyright (c) 2006 The Regents of the University of California.
 52 // All rights reserved.                            52 // All rights reserved.
 53 // UCRL-CODE-224807                                53 // UCRL-CODE-224807
 54 //                                                 54 //
 55 //                                                 55 //
 56 //                                                 56 //
 57 // neutron_hp -- source file                       57 // neutron_hp -- source file
 58 // J.M. Verbeke, Jan-2007                          58 // J.M. Verbeke, Jan-2007
 59 // A prototype of the low energy neutron trans     59 // A prototype of the low energy neutron transport model.
 60 //                                                 60 //
 61 #include "G4FissLib.hh"                            61 #include "G4FissLib.hh"
 62 #include "G4SystemOfUnits.hh"                      62 #include "G4SystemOfUnits.hh"
 63                                                    63 
 64 G4FissLib::G4FissLib()                             64 G4FissLib::G4FissLib()
 65  :xSec(0)                                          65  :xSec(0)
 66 {                                                  66 {
 67   SetMinEnergy(0.0);                               67   SetMinEnergy(0.0);
 68   SetMaxEnergy(20.*MeV);                           68   SetMaxEnergy(20.*MeV);
 69   if(!G4FindDataDir("G4NEUTRONHPDATA")) {          69   if(!G4FindDataDir("G4NEUTRONHPDATA")) {
 70      G4cout << "Please setenv G4NEUTRONHPDATA      70      G4cout << "Please setenv G4NEUTRONHPDATA to point to the neutron cross-section files." << G4endl;
 71      throw G4HadronicException(__FILE__, __LIN     71      throw G4HadronicException(__FILE__, __LINE__, "Please setenv G4NEUTRONHPDATA to point to the neutron cross-section files.");
 72   }                                                72   }
 73   dirName = G4FindDataDir("G4NEUTRONHPDATA");      73   dirName = G4FindDataDir("G4NEUTRONHPDATA");
 74   G4String tString = "/Fission/";                  74   G4String tString = "/Fission/";
 75   dirName = dirName + tString;                     75   dirName = dirName + tString;
 76   numEle = G4Element::GetNumberOfElements();   <<  76   numEle = (G4int)G4Element::GetNumberOfElements();
 77   theFission = new G4ParticleHPChannel[numEle]     77   theFission = new G4ParticleHPChannel[numEle];
 78                                                    78 
 79   for (std::size_t i=0; i<numEle; ++i)         <<  79   for (G4int i=0; i<numEle; ++i)
 80   {                                                80   { 
                                                   >>  81 //    G4cout << "G4FissLib::G4FissLib(): element "<< i << " : " << (*(G4Element::GetElementTable()))[i]->GetZ()<< G4endl;
 81     if((*(G4Element::GetElementTable()))[i]->G     82     if((*(G4Element::GetElementTable()))[i]->GetZ()>89)
 82     {                                              83     {
 83       theFission[i].Init((*(G4Element::GetElem     84       theFission[i].Init((*(G4Element::GetElementTable()))[i], dirName);
 84       theFission[i].Register(&theLibrary);         85       theFission[i].Register(&theLibrary);
 85     }                                              86     }
 86   }                                                87   }
 87 }                                                  88 }
 88                                                    89   
 89 G4FissLib::~G4FissLib()                            90 G4FissLib::~G4FissLib()
 90 {                                                  91 {
 91   delete [] theFission;                            92   delete [] theFission;
 92 }                                                  93 }
 93                                                    94   
 94 G4HadFinalState*                                   95 G4HadFinalState*
 95 G4FissLib::ApplyYourself(const G4HadProjectile     96 G4FissLib::ApplyYourself(const G4HadProjectile& aTrack, G4Nucleus& aNucleus)
 96 {                                                  97 {
 97   G4ParticleHPManager::GetInstance()->OpenReac     98   G4ParticleHPManager::GetInstance()->OpenReactionWhiteBoard();
 98                                                    99 
 99   const G4Material* theMaterial = aTrack.GetMa    100   const G4Material* theMaterial = aTrack.GetMaterial();
100   std::size_t n = theMaterial->GetNumberOfElem    101   std::size_t n = theMaterial->GetNumberOfElements();
101   std::size_t index = theMaterial->GetElement(    102   std::size_t index = theMaterial->GetElement(0)->GetIndex();
102                                                   103 
103   if (n != 1) {                                   104   if (n != 1) {
104     xSec = new G4double[n];                       105     xSec = new G4double[n];
105     G4double sum = 0;                             106     G4double sum = 0;
106     G4int i;                                      107     G4int i;
107     std::size_t imat;                             108     std::size_t imat;
108     const G4double * NumAtomsPerVolume = theMa    109     const G4double * NumAtomsPerVolume = theMaterial->GetVecNbOfAtomsPerVolume();
109     G4double rWeight;                             110     G4double rWeight;    
110     G4ParticleHPThermalBoost aThermalE;           111     G4ParticleHPThermalBoost aThermalE;
111     for (i = 0; i < (G4int)n; ++i) {              112     for (i = 0; i < (G4int)n; ++i) {
112       imat = theMaterial->GetElement(i)->GetIn    113       imat = theMaterial->GetElement(i)->GetIndex();
113       rWeight = NumAtomsPerVolume[i];             114       rWeight = NumAtomsPerVolume[i];
114       xSec[i] = theFission[imat].GetXsec(aTher    115       xSec[i] = theFission[imat].GetXsec(aThermalE.GetThermalEnergy(aTrack,
115                                                   116                                                         theMaterial->GetElement(i),
116                     theMaterial->GetTemperatur    117                     theMaterial->GetTemperature()));
117       xSec[i] *= rWeight;                         118       xSec[i] *= rWeight;
118       sum+=xSec[i];                               119       sum+=xSec[i];
119     }                                             120     }
120                                                   121 
121     G4double random = G4UniformRand();            122     G4double random = G4UniformRand();
122     G4double running = 0;                         123     G4double running = 0;
123     for (i = 0; i < (G4int)n; ++i) {              124     for (i = 0; i < (G4int)n; ++i) {
124       running += xSec[i];                         125       running += xSec[i];
125       index = theMaterial->GetElement(i)->GetI    126       index = theMaterial->GetElement(i)->GetIndex();
126       if(random<=running/sum) break;              127       if(random<=running/sum) break;
127     }                                             128     }
128     delete [] xSec;                               129     delete [] xSec;
129   }                                               130   }
130                                                   131 
131   //return theFission[index].ApplyYourself(aTr    132   //return theFission[index].ApplyYourself(aTrack);
132    //Overwrite target parameters                  133    //Overwrite target parameters
133    G4HadFinalState* result = theFission[index]    134    G4HadFinalState* result = theFission[index].ApplyYourself(aTrack);
134    aNucleus.SetParameters(G4ParticleHPManager:    135    aNucleus.SetParameters(G4ParticleHPManager::GetInstance()->GetReactionWhiteBoard()->GetTargA(),G4ParticleHPManager::GetInstance()->GetReactionWhiteBoard()->GetTargZ());
135    const G4Element* target_element = (*G4Eleme    136    const G4Element* target_element = (*G4Element::GetElementTable())[index];
136    const G4Isotope* target_isotope=NULL;          137    const G4Isotope* target_isotope=NULL;
137    G4int iele = (G4int)target_element->GetNumb    138    G4int iele = (G4int)target_element->GetNumberOfIsotopes();
138    for ( G4int j = 0 ; j != iele ; ++j ) {        139    for ( G4int j = 0 ; j != iele ; ++j ) {
139       target_isotope=target_element->GetIsotop    140       target_isotope=target_element->GetIsotope( j );
140       if ( target_isotope->GetN() == G4Particl    141       if ( target_isotope->GetN() == G4ParticleHPManager::GetInstance()->GetReactionWhiteBoard()->GetTargA() ) break;
141    }                                              142    }
142    aNucleus.SetIsotope( target_isotope );         143    aNucleus.SetIsotope( target_isotope );
143    G4ParticleHPManager::GetInstance()->CloseRe    144    G4ParticleHPManager::GetInstance()->CloseReactionWhiteBoard();
144    return result;                                 145    return result;
145 }                                                 146 }
146                                                   147 
147 const std::pair<G4double, G4double> G4FissLib:    148 const std::pair<G4double, G4double> G4FissLib::GetFatalEnergyCheckLevels() const
148 {                                                 149 {
149   // max energy non-conservation is mass of he    150   // max energy non-conservation is mass of heavy nucleus
150   return std::pair<G4double, G4double>(10.0*pe    151   return std::pair<G4double, G4double>(10.0*perCent, 350.0*CLHEP::GeV);
151 }                                                 152 }
152                                                   153