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>> 82 77 G4ionIonisation::G4ionIonisation(const G4Strin 83 G4ionIonisation::G4ionIonisation(const G4String& name) 78 : G4VEnergyLossProcess(name) << 84 : G4VEnergyLossProcess(name), >> 85 theParticle(0), >> 86 isInitialised(false), >> 87 stopDataActive(true) 79 { 88 { 80 SetLinearLossLimit(0.02); 89 SetLinearLossLimit(0.02); >> 90 SetStepFunction(0.1, 0.01*mm); 81 SetProcessSubType(fIonisation); 91 SetProcessSubType(fIonisation); 82 SetSecondaryParticle(G4Electron::Electron()) 92 SetSecondaryParticle(G4Electron::Electron()); 83 eth = 2*CLHEP::MeV; << 93 corr = G4LossTableManager::Instance()->EmCorrections(); >> 94 eth = 2*MeV; 84 } 95 } 85 96 86 //....oooOO0OOooo........oooOO0OOooo........oo 97 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 87 98 88 G4bool G4ionIonisation::IsApplicable(const G4P << 99 G4ionIonisation::~G4ionIonisation() >> 100 {} >> 101 >> 102 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... >> 103 >> 104 G4bool G4ionIonisation::IsApplicable(const G4ParticleDefinition& p) 89 { 105 { 90 return true; << 106 return (p.GetPDGCharge() != 0.0 && !p.IsShortLived() && >> 107 p.GetParticleType() == "nucleus"); 91 } 108 } 92 109 93 //....oooOO0OOooo........oooOO0OOooo........oo 110 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 94 111 95 G4double G4ionIonisation::MinPrimaryEnergy(con 112 G4double G4ionIonisation::MinPrimaryEnergy(const G4ParticleDefinition* p, 96 const G4Material*, 113 const G4Material*, 97 G4double cut) 114 G4double cut) 98 { 115 { 99 return p->GetPDGMass()*(std::sqrt(1. + 0.5*c << 116 return >> 117 p->GetPDGMass()*(std::sqrt(1. + 0.5*cut/CLHEP::electron_mass_c2) - 1.0); 100 } 118 } 101 119 102 //....oooOO0OOooo........oooOO0OOooo........oo 120 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 103 121 104 void G4ionIonisation::InitialiseEnergyLossProc 122 void G4ionIonisation::InitialiseEnergyLossProcess( 105 const G4ParticleDefinition* part, 123 const G4ParticleDefinition* part, 106 const G4ParticleDefinition* bpart) 124 const G4ParticleDefinition* bpart) 107 { 125 { 108 const G4ParticleDefinition* ion = G4GenericI 126 const G4ParticleDefinition* ion = G4GenericIon::GenericIon(); 109 127 110 if(!isInitialised) { 128 if(!isInitialised) { >> 129 111 theParticle = part; 130 theParticle = part; 112 131 113 // define base particle 132 // define base particle 114 const G4ParticleDefinition* theBaseParticl << 133 const G4ParticleDefinition* theBaseParticle = 0; 115 const G4int pdg = part->GetPDGEncoding(); << 134 >> 135 if(part == ion) { theBaseParticle = 0; } >> 136 else if(bpart == 0) { theBaseParticle = ion; } >> 137 else { theBaseParticle = bpart; } 116 138 117 if(part == bpart) { << 118 theBaseParticle = nullptr; << 119 } else if(nullptr != bpart) { << 120 theBaseParticle = bpart; << 121 } else if(part == ion || pdg == 1000020040 << 122 theBaseParticle = nullptr; << 123 } else { << 124 theBaseParticle = ion; << 125 } << 126 SetBaseParticle(theBaseParticle); 139 SetBaseParticle(theBaseParticle); 127 140 >> 141 if (!EmModel(1)) { SetEmModel(new G4BraggIonModel(), 1); } >> 142 EmModel(1)->SetLowEnergyLimit(MinKinEnergy()); >> 143 128 // model limit defined for protons 144 // model limit defined for protons 129 eth = 2*CLHEP::MeV*part->GetPDGMass()/CLHE << 145 eth = (EmModel(1)->HighEnergyLimit())*part->GetPDGMass()/proton_mass_c2; >> 146 EmModel(1)->SetHighEnergyLimit(eth); 130 147 131 G4EmParameters* param = G4EmParameters::In << 148 if (!FluctModel()) { SetFluctModel(new G4IonFluctuations()); } 132 G4double emin = param->MinKinEnergy(); << 149 AddEmModel(1, EmModel(1), FluctModel()); 133 G4double emax = param->MaxKinEnergy(); << 134 << 135 // define model of energy loss fluctuation << 136 if (nullptr == FluctModel()) { << 137 SetFluctModel(G4EmStandUtil::ModelOfFluc << 138 } << 139 150 140 if (nullptr == EmModel(0)) { << 151 if (!EmModel(2)) { SetEmModel(new G4BetheBlochModel(),2); } 141 if (pdg == 1000020040) { << 152 EmModel(2)->SetLowEnergyLimit(eth); 142 SetEmModel(new G4BraggIonModel()); << 153 EmModel(2)->SetHighEnergyLimit(MaxKinEnergy()); 143 } else { << 154 AddEmModel(2, EmModel(2), FluctModel()); 144 SetEmModel(new G4BraggModel()); << 155 145 } << 156 // Add ion stoping tables for Generic Ion 146 } << 157 if(part == ion) { 147 // to compute ranges correctly we have to << 158 G4WaterStopping ws(corr); 148 // model even if activation limit is high << 159 corr->SetIonisationModels(EmModel(1),EmModel(2)); 149 EmModel(0)->SetLowEnergyLimit(emin); << 150 << 151 // high energy limit may be eth or DBL_MAX << 152 G4double emax1 = (EmModel(0)->HighEnergyLi << 153 EmModel(0)->SetHighEnergyLimit(emax1); << 154 AddEmModel(1, EmModel(0), FluctModel()); << 155 << 156 // second model is used if the first does << 157 if(emax1 < emax) { << 158 if (nullptr == EmModel(1)) { SetEmModel( << 159 EmModel(1)->SetLowEnergyLimit(emax1); << 160 << 161 // for extremely heavy particles upper l << 162 // should be increased << 163 emax = std::max(emax, eth*10); << 164 EmModel(1)->SetHighEnergyLimit(emax); << 165 AddEmModel(2, EmModel(1), FluctModel()); << 166 } 160 } 167 isInitialised = true; 161 isInitialised = true; 168 } 162 } >> 163 // reinitialisation of corrections for the new run >> 164 if(part == ion) { corr->InitialiseForNewRun(); } >> 165 } >> 166 >> 167 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... >> 168 >> 169 void G4ionIonisation::PrintInfo() >> 170 { >> 171 if (stopDataActive && G4GenericIon::GenericIon() == theParticle) { >> 172 G4cout << " Stopping Power data for " >> 173 << corr->GetNumberOfStoppingVectors() >> 174 << " ion/material pairs " >> 175 << G4endl; >> 176 } 169 } 177 } 170 178 171 //....oooOO0OOooo........oooOO0OOooo........oo 179 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 172 180 173 void G4ionIonisation::ProcessDescription(std:: << 181 void G4ionIonisation::AddStoppingData(G4int Z, G4int A, >> 182 const G4String& mname, >> 183 G4PhysicsVector* dVector) 174 { 184 { 175 out << " Ion ionisation"; << 185 corr->AddStoppingData(Z, A, mname, dVector); 176 G4VEnergyLossProcess::ProcessDescription(out << 177 } 186 } 178 187 179 //....oooOO0OOooo........oooOO0OOooo........oo << 188 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 180 189