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Geant4/processes/electromagnetic/dna/models/src/G4DNABornExcitationModel1.cc

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Diff markup

Differences between /processes/electromagnetic/dna/models/src/G4DNABornExcitationModel1.cc (Version 11.3.0) and /processes/electromagnetic/dna/models/src/G4DNABornExcitationModel1.cc (Version 10.7.p4)


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 27                                                    27 
 28 #include "G4DNABornExcitationModel1.hh"            28 #include "G4DNABornExcitationModel1.hh"
 29 #include "G4SystemOfUnits.hh"                      29 #include "G4SystemOfUnits.hh"
 30 #include "G4DNAChemistryManager.hh"                30 #include "G4DNAChemistryManager.hh"
 31 #include "G4DNAMolecularMaterial.hh"               31 #include "G4DNAMolecularMaterial.hh"
 32 #include <map>                                     32 #include <map>
 33                                                    33 
 34 //....oooOO0OOooo........oooOO0OOooo........oo     34 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 35                                                    35 
 36 using namespace std;                               36 using namespace std;
 37                                                    37 
 38 //....oooOO0OOooo........oooOO0OOooo........oo     38 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 39                                                    39 
 40 G4DNABornExcitationModel1::G4DNABornExcitation     40 G4DNABornExcitationModel1::G4DNABornExcitationModel1(const G4ParticleDefinition*,
 41                                                    41                                                      const G4String& nam) :
 42 G4VEmModel(nam)                                <<  42 G4VEmModel(nam), isInitialised(false), fTableData(0)
 43 {                                                  43 {
 44   fpMolWaterDensity = nullptr;                 <<  44   fpMolWaterDensity = 0;
 45   fHighEnergy = 0;                                 45   fHighEnergy = 0;
 46   fLowEnergy = 0;                                  46   fLowEnergy = 0;
 47   fParticleDefinition = nullptr;               <<  47   fParticleDefinition = 0;
 48                                                    48 
 49   verboseLevel = 0;                                49   verboseLevel = 0;
 50   // Verbosity scale:                              50   // Verbosity scale:
 51   // 0 = nothing                                   51   // 0 = nothing
 52   // 1 = warning for energy non-conservation       52   // 1 = warning for energy non-conservation
 53   // 2 = details of energy budget                  53   // 2 = details of energy budget
 54   // 3 = calculation of cross sections, file o     54   // 3 = calculation of cross sections, file openings, sampling of atoms
 55   // 4 = entering in methods                       55   // 4 = entering in methods
 56                                                    56 
 57   if (verboseLevel > 0)                            57   if (verboseLevel > 0)
 58   {                                                58   {
 59     G4cout << "Born excitation model is constr     59     G4cout << "Born excitation model is constructed " << G4endl;
 60   }                                                60   }
 61   fParticleChangeForGamma = nullptr;           <<  61   fParticleChangeForGamma = 0;
 62                                                    62 
 63   // Selection of stationary mode                  63   // Selection of stationary mode
 64                                                    64 
 65   statCode = false;                                65   statCode = false;
 66 }                                                  66 }
 67                                                    67 
 68 //....oooOO0OOooo........oooOO0OOooo........oo     68 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 69                                                    69 
 70 G4DNABornExcitationModel1::~G4DNABornExcitatio     70 G4DNABornExcitationModel1::~G4DNABornExcitationModel1()
 71 {                                                  71 {
 72   // Cross section                                 72   // Cross section
 73                                                <<  73   if (fTableData)
 74     delete fTableData;                             74     delete fTableData;
 75 }                                                  75 }
 76                                                    76 
 77 //....oooOO0OOooo........oooOO0OOooo........oo     77 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
 78                                                    78 
 79 void G4DNABornExcitationModel1::Initialise(con     79 void G4DNABornExcitationModel1::Initialise(const G4ParticleDefinition* particle,
 80                                            con     80                                            const G4DataVector& /*cuts*/)
 81 {                                                  81 {
 82                                                    82 
 83   if (verboseLevel > 3)                            83   if (verboseLevel > 3)
 84   {                                                84   {
 85     G4cout << "Calling G4DNABornExcitationMode     85     G4cout << "Calling G4DNABornExcitationModel1::Initialise()" << G4endl;
 86   }                                                86   }
 87                                                    87 
 88   if(fParticleDefinition != nullptr && fPartic <<  88   if(fParticleDefinition != 0 && fParticleDefinition != particle)
 89   {                                                89   {
 90     G4Exception("G4DNABornExcitationModel1::In     90     G4Exception("G4DNABornExcitationModel1::Initialise","em0001",
 91         FatalException,"Model already initiali     91         FatalException,"Model already initialized for another particle type.");
 92   }                                                92   }
 93                                                    93 
 94   fParticleDefinition = particle;                  94   fParticleDefinition = particle;
 95                                                    95 
 96   if(particle->GetParticleName() == "e-")          96   if(particle->GetParticleName() == "e-")
 97   {                                                97   {
 98     fTableFile = "dna/sigma_excitation_e_born"     98     fTableFile = "dna/sigma_excitation_e_born";
 99     fLowEnergy = 9*eV;                             99     fLowEnergy = 9*eV;
100     fHighEnergy = 1*MeV;                          100     fHighEnergy = 1*MeV;
101   }                                               101   }
102   else if(particle->GetParticleName() == "prot    102   else if(particle->GetParticleName() == "proton")
103   {                                               103   {
104     fTableFile = "dna/sigma_excitation_p_born"    104     fTableFile = "dna/sigma_excitation_p_born";
105     fLowEnergy = 500. * keV;                      105     fLowEnergy = 500. * keV;
106     fHighEnergy = 100. * MeV;                     106     fHighEnergy = 100. * MeV;
107   }                                               107   }
108                                                   108 
109   SetLowEnergyLimit(fLowEnergy);                  109   SetLowEnergyLimit(fLowEnergy);
110   SetHighEnergyLimit(fHighEnergy);                110   SetHighEnergyLimit(fHighEnergy);
111                                                   111 
112   G4double scaleFactor = (1.e-22 / 3.343) * m*    112   G4double scaleFactor = (1.e-22 / 3.343) * m*m;
113   fTableData = new G4DNACrossSectionDataSet(ne    113   fTableData = new G4DNACrossSectionDataSet(new G4LogLogInterpolation, eV,scaleFactor );
114   fTableData->LoadData(fTableFile);               114   fTableData->LoadData(fTableFile);
115                                                   115 
116   if( verboseLevel>0 )                            116   if( verboseLevel>0 )
117   {                                               117   {
118     G4cout << "Born excitation model is initia    118     G4cout << "Born excitation model is initialized " << G4endl
119     << "Energy range: "                           119     << "Energy range: "
120     << LowEnergyLimit() / eV << " eV - "          120     << LowEnergyLimit() / eV << " eV - "
121     << HighEnergyLimit() / keV << " keV for "     121     << HighEnergyLimit() / keV << " keV for "
122     << particle->GetParticleName()                122     << particle->GetParticleName()
123     << G4endl;                                    123     << G4endl;
124   }                                               124   }
125                                                   125 
126   // Initialize water density pointer             126   // Initialize water density pointer
127   fpMolWaterDensity = G4DNAMolecularMaterial::    127   fpMolWaterDensity = G4DNAMolecularMaterial::Instance()->GetNumMolPerVolTableFor(G4Material::GetMaterial("G4_WATER"));
128                                                   128 
129   if (isInitialised)                              129   if (isInitialised)
130   { return;}                                      130   { return;}
131   fParticleChangeForGamma = GetParticleChangeF    131   fParticleChangeForGamma = GetParticleChangeForGamma();
132   isInitialised = true;                           132   isInitialised = true;
133 }                                                 133 }
134                                                   134 
135 //....oooOO0OOooo........oooOO0OOooo........oo    135 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
136                                                   136 
137 G4double G4DNABornExcitationModel1::CrossSecti    137 G4double G4DNABornExcitationModel1::CrossSectionPerVolume(const G4Material* material,
138                                                   138                                                           const G4ParticleDefinition* particleDefinition,
139                                                   139                                                           G4double ekin,
140                                                   140                                                           G4double,
141                                                   141                                                           G4double)
142 {                                                 142 {
143   if (verboseLevel > 3)                           143   if (verboseLevel > 3)
144   {                                               144   {
145     G4cout << "Calling CrossSectionPerVolume()    145     G4cout << "Calling CrossSectionPerVolume() of G4DNABornExcitationModel1"
146         << G4endl;                                146         << G4endl;
147   }                                               147   }
148                                                   148 
149   if(particleDefinition != fParticleDefinition    149   if(particleDefinition != fParticleDefinition) return 0;
150                                                   150 
151   // Calculate total cross section for model      151   // Calculate total cross section for model
152                                                   152 
153   G4double sigma=0;                               153   G4double sigma=0;
154                                                   154 
155   G4double waterDensity = (*fpMolWaterDensity)    155   G4double waterDensity = (*fpMolWaterDensity)[material->GetIndex()];
156                                                   156 
157   if (ekin >= fLowEnergy && ekin <= fHighEnerg    157   if (ekin >= fLowEnergy && ekin <= fHighEnergy)
158   {                                               158   {
159     sigma = fTableData->FindValue(ekin);          159     sigma = fTableData->FindValue(ekin);
160   }                                               160   }
161                                                   161 
162   if (verboseLevel > 2)                           162   if (verboseLevel > 2)
163   {                                               163   {
164     G4cout << "_______________________________    164     G4cout << "__________________________________" << G4endl;
165     G4cout << "G4DNABornExcitationModel1 - XS     165     G4cout << "G4DNABornExcitationModel1 - XS INFO START" << G4endl;
166     G4cout << "Kinetic energy(eV)=" << ekin/eV    166     G4cout << "Kinetic energy(eV)=" << ekin/eV << " particle : " << particleDefinition->GetParticleName() << G4endl;
167     G4cout << "Cross section per water molecul    167     G4cout << "Cross section per water molecule (cm^2)=" << sigma/cm/cm << G4endl;
168     G4cout << "Cross section per water molecul    168     G4cout << "Cross section per water molecule (cm^-1)=" << sigma*waterDensity/(1./cm) << G4endl;
169     G4cout << "G4DNABornExcitationModel1 - XS     169     G4cout << "G4DNABornExcitationModel1 - XS INFO END" << G4endl;
170   }                                               170   }
171                                                   171 
172   return sigma*waterDensity;                      172   return sigma*waterDensity;
173 }                                                 173 }
174                                                   174 
175 //....oooOO0OOooo........oooOO0OOooo........oo    175 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo....
176                                                   176 
177 void G4DNABornExcitationModel1::SampleSecondar    177 void G4DNABornExcitationModel1::SampleSecondaries(std::vector<G4DynamicParticle*>* /*fvect*/,
178                                                   178                                                   const G4MaterialCutsCouple* /*couple*/,
179                                                   179                                                   const G4DynamicParticle* aDynamicParticle,
180                                                   180                                                   G4double,
181                                                   181                                                   G4double)
182 {                                                 182 {
183                                                   183 
184   if (verboseLevel > 3)                           184   if (verboseLevel > 3)
185   {                                               185   {
186     G4cout << "Calling SampleSecondaries() of     186     G4cout << "Calling SampleSecondaries() of G4DNABornExcitationModel1"
187         << G4endl;                                187         << G4endl;
188   }                                               188   }
189                                                   189 
190   G4double k = aDynamicParticle->GetKineticEne    190   G4double k = aDynamicParticle->GetKineticEnergy();
191                                                   191 
192   G4int level = RandomSelect(k);                  192   G4int level = RandomSelect(k);
193   G4double excitationEnergy = waterStructure.E    193   G4double excitationEnergy = waterStructure.ExcitationEnergy(level);
194   G4double newEnergy = k - excitationEnergy;      194   G4double newEnergy = k - excitationEnergy;
195                                                   195 
196   if (newEnergy > 0)                              196   if (newEnergy > 0)
197   {                                               197   {
198     fParticleChangeForGamma->ProposeMomentumDi    198     fParticleChangeForGamma->ProposeMomentumDirection(aDynamicParticle->GetMomentumDirection());
199                                                   199     
200     if (!statCode) fParticleChangeForGamma->Se    200     if (!statCode) fParticleChangeForGamma->SetProposedKineticEnergy(newEnergy);
201     else fParticleChangeForGamma->SetProposedK    201     else fParticleChangeForGamma->SetProposedKineticEnergy(k);
202                                                   202     
203     fParticleChangeForGamma->ProposeLocalEnerg    203     fParticleChangeForGamma->ProposeLocalEnergyDeposit(excitationEnergy);
204   }                                               204   }
205                                                   205 
206   const G4Track * theIncomingTrack = fParticle    206   const G4Track * theIncomingTrack = fParticleChangeForGamma->GetCurrentTrack();
207   G4DNAChemistryManager::Instance()->CreateWat    207   G4DNAChemistryManager::Instance()->CreateWaterMolecule(eExcitedMolecule,
208       level,                                      208       level,
209       theIncomingTrack);                          209       theIncomingTrack);
210 }                                                 210 }
211                                                   211 
212 //....oooOO0OOooo........oooOO0OOooo........oo    212 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
213                                                   213 
214 G4double G4DNABornExcitationModel1::GetPartial    214 G4double G4DNABornExcitationModel1::GetPartialCrossSection(const G4Material*,
215                                                   215                                                            G4int level,
216                                                   216                                                            const G4ParticleDefinition* particle,
217                                                   217                                                            G4double kineticEnergy)
218 {                                                 218 {
219   if (fParticleDefinition != particle)            219   if (fParticleDefinition != particle)
220   {                                               220   {
221     G4Exception("G4DNABornExcitationModel1::Ge    221     G4Exception("G4DNABornExcitationModel1::GetPartialCrossSection",
222                 "bornParticleType",               222                 "bornParticleType",
223                 FatalException,                   223                 FatalException,
224                 "Model initialized for another    224                 "Model initialized for another particle type.");
225   }                                               225   }
226                                                   226 
227   return fTableData->GetComponent(level)->Find    227   return fTableData->GetComponent(level)->FindValue(kineticEnergy);
228 }                                                 228 }
229                                                   229 
230 //....oooOO0OOooo........oooOO0OOooo........oo    230 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
231                                                   231 
232 G4int G4DNABornExcitationModel1::RandomSelect(    232 G4int G4DNABornExcitationModel1::RandomSelect(G4double k)
233 {                                                 233 {
234   G4int level = 0;                                234   G4int level = 0;
235                                                   235 
236   auto  valuesBuffer = new G4double[fTableData << 236   G4double* valuesBuffer = new G4double[fTableData->NumberOfComponents()];
237   const auto  n = (G4int)fTableData->NumberOfC << 237   const size_t n(fTableData->NumberOfComponents());
238   G4int i(n);                                  << 238   size_t i(n);
239   G4double value = 0.;                            239   G4double value = 0.;
240                                                   240 
241   while (i > 0)                                   241   while (i > 0)
242   {                                               242   {
243     i--;                                          243     i--;
244     valuesBuffer[i] = fTableData->GetComponent    244     valuesBuffer[i] = fTableData->GetComponent(i)->FindValue(k);
245     value += valuesBuffer[i];                     245     value += valuesBuffer[i];
246   }                                               246   }
247                                                   247 
248   value *= G4UniformRand();                       248   value *= G4UniformRand();
249   i = n;                                          249   i = n;
250                                                   250 
251   while (i > 0)                                   251   while (i > 0)
252   {                                               252   {
253     i--;                                          253     i--;
254                                                   254 
255     if (valuesBuffer[i] > value)                  255     if (valuesBuffer[i] > value)
256     {                                             256     {
257       delete[] valuesBuffer;                      257       delete[] valuesBuffer;
258       return i;                                   258       return i;
259     }                                             259     }
260     value -= valuesBuffer[i];                     260     value -= valuesBuffer[i];
261   }                                               261   }
262                                                   262 
263                                                << 263   if (valuesBuffer)
264     delete[] valuesBuffer;                        264     delete[] valuesBuffer;
265                                                   265 
266   return level;                                   266   return level;
267 }                                                 267 }
268                                                   268 
269                                                   269