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Geant4/processes/electromagnetic/lowenergy/src/G4eIonisationCrossSectionHandler.cc

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Diff markup

Differences between /processes/electromagnetic/lowenergy/src/G4eIonisationCrossSectionHandler.cc (Version 11.3.0) and /processes/electromagnetic/lowenergy/src/G4eIonisationCrossSectionHandler.cc (Version 10.7.p2)


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 25 //                                                 25 //
 26 //                                                 26 //
 27 // -------------------------------------------     27 // -------------------------------------------------------------------
 28 //                                                 28 //
 29 // GEANT4 Class file                               29 // GEANT4 Class file
 30 //                                                 30 //
 31 //                                                 31 //
 32 // File name:     G4eIonisationCrossSectionHan     32 // File name:     G4eIonisationCrossSectionHandler
 33 //                                                 33 //
 34 // Author:        V.Ivanchenko (Vladimir.Ivanc     34 // Author:        V.Ivanchenko (Vladimir.Ivanchenko@cern.ch)
 35 //                                                 35 // 
 36 // Creation date: 25 Sept 2001                     36 // Creation date: 25 Sept 2001
 37 //                                                 37 //
 38 // Modifications:                                  38 // Modifications: 
 39 // 10 Oct 2001  M.G. Pia     Revision to impro     39 // 10 Oct 2001  M.G. Pia     Revision to improve code quality and consistency with design
 40 // 19 Jul 2002   VI          Create composite      40 // 19 Jul 2002   VI          Create composite data set for material
 41 // 21 Jan 2003  V.Ivanchenko Cut per region        41 // 21 Jan 2003  V.Ivanchenko Cut per region
 42 // 28 Jan 2009  L.Pandola    Added public meth     42 // 28 Jan 2009  L.Pandola    Added public method to make a easier migration of 
 43 //                           G4LowEnergyIonisa     43 //                           G4LowEnergyIonisation to G4LivermoreIonisationModel
 44 // 15 Jul 2009   Nicolas A. Karakatsanis           44 // 15 Jul 2009   Nicolas A. Karakatsanis
 45 //                                                 45 //
 46 //                           - BuildCrossSecti     46 //                           - BuildCrossSectionForMaterials method was revised in order to calculate the 
 47 //                             logarithmic val     47 //                             logarithmic values of the loaded data. 
 48 //                             It retrieves th     48 //                             It retrieves the data values from the G4EMLOW data files but, then, calculates the
 49 //                             respective log      49 //                             respective log values and loads them to seperate data structures.
 50 //                             The EM data set     50 //                             The EM data sets, initialized this way, contain both non-log and log values.
 51 //                             These initializ     51 //                             These initialized data sets can enhance the computing performance of data interpolation
 52 //                             operations          52 //                             operations
 53 //                                                 53 //
 54 //                                                 54 //
 55 //                                                 55 //
 56 // -------------------------------------------     56 // -------------------------------------------------------------------
 57                                                    57 
 58 #include "G4eIonisationCrossSectionHandler.hh"     58 #include "G4eIonisationCrossSectionHandler.hh"
 59 #include "G4SystemOfUnits.hh"                      59 #include "G4SystemOfUnits.hh"
 60 #include "G4VEnergySpectrum.hh"                    60 #include "G4VEnergySpectrum.hh"
 61 #include "G4DataVector.hh"                         61 #include "G4DataVector.hh"
 62 #include "G4CompositeEMDataSet.hh"                 62 #include "G4CompositeEMDataSet.hh"
 63 #include "G4VDataSetAlgorithm.hh"                  63 #include "G4VDataSetAlgorithm.hh"
 64 #include "G4LinLogLogInterpolation.hh"             64 #include "G4LinLogLogInterpolation.hh"
 65 #include "G4SemiLogInterpolation.hh"               65 #include "G4SemiLogInterpolation.hh"
 66 #include "G4VEMDataSet.hh"                         66 #include "G4VEMDataSet.hh"
 67 #include "G4EMDataSet.hh"                          67 #include "G4EMDataSet.hh"
 68 #include "G4Material.hh"                           68 #include "G4Material.hh"
 69 #include "G4ProductionCutsTable.hh"                69 #include "G4ProductionCutsTable.hh"
 70                                                    70 
 71 //....oooOO0OOooo........oooOO0OOooo........oo <<  71 
 72  G4eIonisationCrossSectionHandler::G4eIonisati <<  72 G4eIonisationCrossSectionHandler::G4eIonisationCrossSectionHandler(
 73     const G4VEnergySpectrum* spec, G4VDataSetA     73     const G4VEnergySpectrum* spec, G4VDataSetAlgorithm* alg,
 74     G4double emin, G4double emax, G4int nbin)      74     G4double emin, G4double emax, G4int nbin)
 75  :  G4VCrossSectionHandler(),                      75  :  G4VCrossSectionHandler(),
 76     theParam(spec),verbose(0)                      76     theParam(spec),verbose(0)
 77 {                                                  77 {
 78   G4VCrossSectionHandler::Initialise(alg, emin     78   G4VCrossSectionHandler::Initialise(alg, emin, emax, nbin);
 79   interp = new G4LinLogLogInterpolation();         79   interp = new G4LinLogLogInterpolation();
 80 }                                                  80 }
 81                                                    81 
 82 //....oooOO0OOooo........oooOO0OOooo........oo << 
 83                                                    82 
 84 G4eIonisationCrossSectionHandler::~G4eIonisati     83 G4eIonisationCrossSectionHandler::~G4eIonisationCrossSectionHandler()
 85 {                                                  84 {
 86   delete interp;                                   85   delete interp;
 87 }                                                  86 }
 88                                                    87 
 89 //....oooOO0OOooo........oooOO0OOooo........oo << 
 90                                                    88 
 91 std::vector<G4VEMDataSet*>* G4eIonisationCross     89 std::vector<G4VEMDataSet*>* G4eIonisationCrossSectionHandler::BuildCrossSectionsForMaterials(
 92                         const G4DataVector& en     90                         const G4DataVector& energyVector,
 93                         const G4DataVector* en     91                         const G4DataVector* energyCuts)
 94 {                                                  92 {
 95   std::vector<G4VEMDataSet*>* set = new std::v     93   std::vector<G4VEMDataSet*>* set = new std::vector<G4VEMDataSet*>;
 96                                                    94 
 97   G4DataVector* energies;                          95   G4DataVector* energies;
 98   G4DataVector* cs;                                96   G4DataVector* cs;
 99                                                    97 
100   G4DataVector* log_energies;                      98   G4DataVector* log_energies;
101   G4DataVector* log_cs;                            99   G4DataVector* log_cs;
102                                                   100 
103   std::size_t nOfBins = energyVector.size();   << 101   G4int nOfBins = energyVector.size();
104                                                   102 
105   const G4ProductionCutsTable* theCoupleTable=    103   const G4ProductionCutsTable* theCoupleTable=
106         G4ProductionCutsTable::GetProductionCu    104         G4ProductionCutsTable::GetProductionCutsTable();
107   G4int numOfCouples = (G4int)theCoupleTable-> << 105   size_t numOfCouples = theCoupleTable->GetTableSize();
108                                                   106 
109   for (G4int mLocal=0; mLocal<numOfCouples; ++ << 107   for (size_t mLocal=0; mLocal<numOfCouples; mLocal++) {
110                                                   108 
111     const G4MaterialCutsCouple* couple = theCo    109     const G4MaterialCutsCouple* couple = theCoupleTable->GetMaterialCutsCouple(mLocal);
112     const G4Material* material= couple->GetMat    110     const G4Material* material= couple->GetMaterial();
113     const G4ElementVector* elementVector = mat    111     const G4ElementVector* elementVector = material->GetElementVector();
114     const G4double* nAtomsPerVolume = material    112     const G4double* nAtomsPerVolume = material->GetAtomicNumDensityVector();
115     G4int nElements = (G4int)material->GetNumb << 113     G4int nElements = material->GetNumberOfElements();
116                                                   114 
117     if(verbose > 0)                               115     if(verbose > 0) 
118       {                                           116       {
119   G4cout << "eIonisation CS for " << mLocal <<    117   G4cout << "eIonisation CS for " << mLocal << "th material "
120          << material->GetName()                   118          << material->GetName()
121          << "  eEl= " << nElements << G4endl;     119          << "  eEl= " << nElements << G4endl;
122       }                                           120       }
123                                                   121 
124     G4double tcut  = (*energyCuts)[mLocal];       122     G4double tcut  = (*energyCuts)[mLocal];
125                                                   123 
126     G4VDataSetAlgorithm* algo = interp->Clone(    124     G4VDataSetAlgorithm* algo = interp->Clone();
127     G4VEMDataSet* setForMat = new G4CompositeE    125     G4VEMDataSet* setForMat = new G4CompositeEMDataSet(algo,1.,1.);
128                                                   126 
129     for (G4int i=0; i<nElements; ++i) {        << 127     for (G4int i=0; i<nElements; i++) {
130                                                   128 
131       G4int Z = (G4int) (*elementVector)[i]->G    129       G4int Z = (G4int) (*elementVector)[i]->GetZ();
132       G4int nShells = NumberOfComponents(Z);      130       G4int nShells = NumberOfComponents(Z);
133                                                   131 
134       energies = new G4DataVector;                132       energies = new G4DataVector;
135       cs       = new G4DataVector;                133       cs       = new G4DataVector;
136                                                   134 
137       log_energies = new G4DataVector;            135       log_energies = new G4DataVector;
138       log_cs       = new G4DataVector;            136       log_cs       = new G4DataVector;
139                                                   137 
140       G4double density = nAtomsPerVolume[i];      138       G4double density = nAtomsPerVolume[i];
141                                                   139 
142       for (std::size_t bin=0; bin<nOfBins; ++b << 140       for (G4int bin=0; bin<nOfBins; bin++) {
143                                                   141 
144         G4double e = energyVector[bin];           142         G4double e = energyVector[bin];
145         energies->push_back(e);                   143         energies->push_back(e);
146         log_energies->push_back(std::log10(e))    144         log_energies->push_back(std::log10(e));
147         G4double value = 0.0;                     145         G4double value = 0.0;
148         G4double log_value = -300;                146         G4double log_value = -300;
149                                                   147 
150         if(e > tcut) {                            148         if(e > tcut) {
151           for (G4int n=0; n<nShells; n++) {       149           for (G4int n=0; n<nShells; n++) {
152             G4double cross = FindValue(Z, e, n    150             G4double cross = FindValue(Z, e, n);
153             G4double p = theParam->Probability    151             G4double p = theParam->Probability(Z, tcut, e, e, n);
154             value += cross * p * density;         152             value += cross * p * density;
155                                                   153 
156       if(verbose>0 && mLocal == 0 && e>=1. &&     154       if(verbose>0 && mLocal == 0 && e>=1. && e<=0.) 
157       {                                           155       {
158               G4cout << "G4eIonCrossSH: e(MeV)    156               G4cout << "G4eIonCrossSH: e(MeV)= " << e/MeV
159                      << " n= " << n               157                      << " n= " << n
160                      << " cross= " << cross       158                      << " cross= " << cross
161                      << " p= " << p               159                      << " p= " << p
162                      << " value= " << value       160                      << " value= " << value
163                      << " tcut(MeV)= " << tcut    161                      << " tcut(MeV)= " << tcut/MeV
164                      << " rho= " << density       162                      << " rho= " << density
165                      << " Z= " << Z               163                      << " Z= " << Z
166                      << G4endl;                   164                      << G4endl;
167         }                                         165         }
                                                   >> 166 
168     }                                             167     }
169           if (value == 0.) value = 1e-300;        168           if (value == 0.) value = 1e-300;
170           log_value = std::log10(value);          169           log_value = std::log10(value);
171   }                                               170   }
172         cs->push_back(value);                     171         cs->push_back(value);
173         log_cs->push_back(log_value);             172         log_cs->push_back(log_value);
174       }                                           173       }
175       G4VDataSetAlgorithm* algoLocal = interp-    174       G4VDataSetAlgorithm* algoLocal = interp->Clone();
                                                   >> 175 
                                                   >> 176       //G4VEMDataSet* elSet = new G4EMDataSet(i,energies,cs,algoLocal,1.,1.);
                                                   >> 177 
176       G4VEMDataSet* elSet = new G4EMDataSet(i,    178       G4VEMDataSet* elSet = new G4EMDataSet(i,energies,cs,log_energies,log_cs,algoLocal,1.,1.);
177                                                   179 
178       setForMat->AddComponent(elSet);             180       setForMat->AddComponent(elSet);
179     }                                             181     }
180     set->push_back(setForMat);                    182     set->push_back(setForMat);
181   }                                               183   }
182                                                   184 
183   return set;                                     185   return set;
184 }                                                 186 }
185                                                   187 
186 //....oooOO0OOooo........oooOO0OOooo........oo << 
187                                                << 
188 G4double G4eIonisationCrossSectionHandler::Get    188 G4double G4eIonisationCrossSectionHandler::GetCrossSectionAboveThresholdForElement(G4double energy,
189                        G4double cutEnergy,        189                        G4double cutEnergy,
190                        G4int Z)                   190                        G4int Z)
191 {                                                 191 {
192   G4int nShells = NumberOfComponents(Z);          192   G4int nShells = NumberOfComponents(Z);
193   G4double value = 0.;                            193   G4double value = 0.;
194   if(energy > cutEnergy)                          194   if(energy > cutEnergy) 
195     {                                             195     {
196       for (G4int n=0; n<nShells; ++n) {        << 196       for (G4int n=0; n<nShells; n++) {
197   G4double cross = FindValue(Z, energy, n);       197   G4double cross = FindValue(Z, energy, n);
198   G4double p = theParam->Probability(Z, cutEne    198   G4double p = theParam->Probability(Z, cutEnergy, energy, energy, n);
199   value += cross * p;                             199   value += cross * p;
200       }                                           200       }
201     }                                             201     }
202   return value;                                   202   return value;
203 }                                                 203 }
204                                                   204