Geant4 Cross Reference |
1 // 1 // 2 // ******************************************* 2 // ******************************************************************** 3 // * License and Disclaimer 3 // * License and Disclaimer * 4 // * 4 // * * 5 // * The Geant4 software is copyright of th 5 // * The Geant4 software is copyright of the Copyright Holders of * 6 // * the Geant4 Collaboration. It is provided 6 // * the Geant4 Collaboration. It is provided under the terms and * 7 // * conditions of the Geant4 Software License 7 // * conditions of the Geant4 Software License, included in the file * 8 // * LICENSE and available at http://cern.ch/ 8 // * LICENSE and available at http://cern.ch/geant4/license . These * 9 // * include a list of copyright holders. 9 // * include a list of copyright holders. * 10 // * 10 // * * 11 // * Neither the authors of this software syst 11 // * Neither the authors of this software system, nor their employing * 12 // * institutes,nor the agencies providing fin 12 // * institutes,nor the agencies providing financial support for this * 13 // * work make any representation or warran 13 // * work make any representation or warranty, express or implied, * 14 // * regarding this software system or assum 14 // * regarding this software system or assume any liability for its * 15 // * use. Please see the license in the file 15 // * use. Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 // ------------------------------------------- 26 // ------------------------------------------------------------------- 27 // 27 // 28 // GEANT4 Class header file 28 // GEANT4 Class header file 29 // 29 // 30 // File name: G4EmParameters 30 // File name: G4EmParameters 31 // 31 // 32 // Author: Vladimir Ivanchenko for migr 32 // Author: Vladimir Ivanchenko for migration to MT 33 // 33 // 34 // 34 // 35 // Creation date: 17.05.2013 35 // Creation date: 17.05.2013 36 // 36 // 37 // Modifications: 37 // Modifications: 38 // 38 // 39 // 39 // 40 // Class Description: 40 // Class Description: 41 // 41 // 42 // A utility static class, responsable for kee 42 // A utility static class, responsable for keeping parameters 43 // for all EM physics processes and models. 43 // for all EM physics processes and models. 44 // 44 // 45 // It is initialized by the master thread but 45 // It is initialized by the master thread but can be updated 46 // at any moment. Parameters may be used in ru 46 // at any moment. Parameters may be used in run time or at 47 // initialisation 47 // initialisation 48 // 48 // 49 // ------------------------------------------- 49 // ------------------------------------------------------------------- 50 // 50 // 51 51 52 #ifndef G4EmParameters_h 52 #ifndef G4EmParameters_h 53 #define G4EmParameters_h 1 53 #define G4EmParameters_h 1 54 54 55 #include "globals.hh" 55 #include "globals.hh" 56 #include "G4ios.hh" 56 #include "G4ios.hh" 57 #include "G4MscStepLimitType.hh" 57 #include "G4MscStepLimitType.hh" 58 #include "G4NuclearFormfactorType.hh" 58 #include "G4NuclearFormfactorType.hh" 59 #include "G4DNAModelSubType.hh" 59 #include "G4DNAModelSubType.hh" 60 #include "G4EmFluoDirectory.hh" << 61 #include "G4EmSaturation.hh" 60 #include "G4EmSaturation.hh" 62 #include "G4ThreeVector.hh" 61 #include "G4ThreeVector.hh" 63 #include "G4ChemTimeStepModel.hh" << 62 #include "G4Threading.hh" 64 #include <vector> 63 #include <vector> 65 #include <map> << 66 enum G4eSingleScatteringType << 67 { << 68 fWVI = 0, << 69 fMott, << 70 fDPWA << 71 }; << 72 << 73 enum class G4TransportationWithMscType << 74 { << 75 fDisabled = 0, << 76 fEnabled, << 77 fMultipleSteps, << 78 }; << 79 64 80 enum G4EmFluctuationType << 65 enum G4eSingleScatteringType 81 { << 66 { 82 fDummyFluctuation = 0, << 67 fWVI = 0, 83 fUniversalFluctuation, << 68 fMott, 84 fUrbanFluctuation << 69 fDPWA 85 }; << 70 }; 86 << 87 enum G4PositronAtRestModelType << 88 { << 89 fSimplePositronium = 0, << 90 fAllisonPositronium, << 91 fOrePowell, << 92 fOrePowellPolar << 93 }; << 94 71 95 class G4EmParametersMessenger; 72 class G4EmParametersMessenger; 96 class G4EmExtraParameters; 73 class G4EmExtraParameters; 97 class G4EmLowEParameters; 74 class G4EmLowEParameters; 98 class G4VAtomDeexcitation; 75 class G4VAtomDeexcitation; 99 class G4VEnergyLossProcess; 76 class G4VEnergyLossProcess; 100 class G4VEmProcess; 77 class G4VEmProcess; 101 class G4StateManager; 78 class G4StateManager; 102 79 103 class G4EmParameters 80 class G4EmParameters 104 { 81 { 105 public: 82 public: 106 83 107 static G4EmParameters* Instance(); 84 static G4EmParameters* Instance(); 108 85 109 ~G4EmParameters(); 86 ~G4EmParameters(); 110 87 111 void SetDefaults(); 88 void SetDefaults(); 112 89 113 // printing 90 // printing 114 void StreamInfo(std::ostream& os) const; 91 void StreamInfo(std::ostream& os) const; 115 void Dump(); << 92 void Dump() const; 116 friend std::ostream& operator<< (std::ostrea 93 friend std::ostream& operator<< (std::ostream& os, const G4EmParameters&); 117 94 118 // boolean flags 95 // boolean flags 119 void SetLossFluctuations(G4bool val); 96 void SetLossFluctuations(G4bool val); 120 G4bool LossFluctuation() const; 97 G4bool LossFluctuation() const; 121 98 122 void SetBuildCSDARange(G4bool val); 99 void SetBuildCSDARange(G4bool val); 123 G4bool BuildCSDARange() const; 100 G4bool BuildCSDARange() const; 124 101 125 void SetLPM(G4bool val); 102 void SetLPM(G4bool val); 126 G4bool LPM() const; 103 G4bool LPM() const; 127 104 >> 105 void SetSpline(G4bool val); >> 106 G4bool Spline() const; >> 107 128 void SetUseCutAsFinalRange(G4bool val); 108 void SetUseCutAsFinalRange(G4bool val); 129 G4bool UseCutAsFinalRange() const; 109 G4bool UseCutAsFinalRange() const; 130 110 131 void SetApplyCuts(G4bool val); 111 void SetApplyCuts(G4bool val); 132 G4bool ApplyCuts() const; 112 G4bool ApplyCuts() const; 133 113 134 void SetFluo(G4bool val); 114 void SetFluo(G4bool val); 135 G4bool Fluo() const; 115 G4bool Fluo() const; 136 116 137 G4EmFluoDirectory FluoDirectory() const; << 138 << 139 void SetFluoDirectory(G4EmFluoDirectory); << 140 void SetBeardenFluoDir(G4bool val); 117 void SetBeardenFluoDir(G4bool val); 141 void SetANSTOFluoDir(G4bool val); << 118 G4bool BeardenFluoDir() const; 142 void SetXDB_EADLFluoDir(G4bool val); << 143 << 144 G4bool BeardenFluoDir(); << 145 G4bool ANSTOFluoDir(); << 146 119 147 void SetAuger(G4bool val); 120 void SetAuger(G4bool val); 148 void SetAugerCascade(G4bool val) { SetAuger( << 149 G4bool Auger() const; 121 G4bool Auger() const; 150 G4bool AugerCascade() const { return Auger() << 122 >> 123 // obsolete methods >> 124 void SetAugerCascade(G4bool val); >> 125 G4bool AugerCascade() const; 151 126 152 void SetPixe(G4bool val); 127 void SetPixe(G4bool val); 153 G4bool Pixe() const; 128 G4bool Pixe() const; 154 129 155 void SetDeexcitationIgnoreCut(G4bool val); 130 void SetDeexcitationIgnoreCut(G4bool val); 156 G4bool DeexcitationIgnoreCut() const; 131 G4bool DeexcitationIgnoreCut() const; 157 132 158 void SetLateralDisplacement(G4bool val); 133 void SetLateralDisplacement(G4bool val); 159 G4bool LateralDisplacement() const; 134 G4bool LateralDisplacement() const; 160 135 161 void SetLateralDisplacementAlg96(G4bool val) 136 void SetLateralDisplacementAlg96(G4bool val); 162 G4bool LateralDisplacementAlg96() const; 137 G4bool LateralDisplacementAlg96() const; 163 138 164 void SetMuHadLateralDisplacement(G4bool val) 139 void SetMuHadLateralDisplacement(G4bool val); 165 G4bool MuHadLateralDisplacement() const; 140 G4bool MuHadLateralDisplacement() const; 166 141 167 void ActivateAngularGeneratorForIonisation(G 142 void ActivateAngularGeneratorForIonisation(G4bool val); 168 G4bool UseAngularGeneratorForIonisation() co 143 G4bool UseAngularGeneratorForIonisation() const; 169 144 170 void SetUseMottCorrection(G4bool val); 145 void SetUseMottCorrection(G4bool val); 171 G4bool UseMottCorrection() const; 146 G4bool UseMottCorrection() const; 172 147 173 void SetIntegral(G4bool val); 148 void SetIntegral(G4bool val); 174 G4bool Integral() const; 149 G4bool Integral() const; 175 150 176 void SetBirksActive(G4bool val); 151 void SetBirksActive(G4bool val); 177 G4bool BirksActive() const; 152 G4bool BirksActive() const; 178 153 179 void SetUseICRU90Data(G4bool val); 154 void SetUseICRU90Data(G4bool val); 180 G4bool UseICRU90Data() const; 155 G4bool UseICRU90Data() const; 181 156 182 void SetFluctuationType(G4EmFluctuationType << 183 G4EmFluctuationType FluctuationType() const; << 184 << 185 void SetPositronAtRestModelType(G4PositronAt << 186 G4PositronAtRestModelType PositronAtRestMode << 187 << 188 void SetDNAFast(G4bool val); 157 void SetDNAFast(G4bool val); 189 G4bool DNAFast() const; 158 G4bool DNAFast() const; 190 159 191 void SetDNAStationary(G4bool val); 160 void SetDNAStationary(G4bool val); 192 G4bool DNAStationary() const; 161 G4bool DNAStationary() const; 193 162 194 void SetDNAElectronMsc(G4bool val); 163 void SetDNAElectronMsc(G4bool val); 195 G4bool DNAElectronMsc() const; 164 G4bool DNAElectronMsc() const; 196 165 197 // if general interaction is enabled then << 198 // force interaction options should be disab << 199 void SetGeneralProcessActive(G4bool val); 166 void SetGeneralProcessActive(G4bool val); 200 G4bool GeneralProcessActive() const; 167 G4bool GeneralProcessActive() const; 201 168 202 void SetEnableSamplingTable(G4bool val); 169 void SetEnableSamplingTable(G4bool val); 203 G4bool EnableSamplingTable() const; 170 G4bool EnableSamplingTable() const; 204 171 205 void SetEnablePolarisation(G4bool val); 172 void SetEnablePolarisation(G4bool val); 206 G4bool EnablePolarisation() const; 173 G4bool EnablePolarisation() const; 207 174 208 G4bool GetDirectionalSplitting() const; 175 G4bool GetDirectionalSplitting() const; 209 void SetDirectionalSplitting(G4bool v); 176 void SetDirectionalSplitting(G4bool v); 210 177 211 G4bool QuantumEntanglement() const; 178 G4bool QuantumEntanglement() const; 212 void SetQuantumEntanglement(G4bool v); 179 void SetQuantumEntanglement(G4bool v); 213 180 214 G4bool RetrieveMuDataFromFile() const; 181 G4bool RetrieveMuDataFromFile() const; 215 void SetRetrieveMuDataFromFile(G4bool v); 182 void SetRetrieveMuDataFromFile(G4bool v); 216 183 217 G4bool PhotoeffectBelowKShell() const; << 218 void SetPhotoeffectBelowKShell(G4bool v); << 219 << 220 G4bool MscPositronCorrection() const; << 221 void SetMscPositronCorrection(G4bool v); << 222 << 223 G4bool UseEPICS2017XS() const; << 224 void SetUseEPICS2017XS(G4bool v); << 225 << 226 G4bool Use3GammaAnnihilationOnFly() const; << 227 void Set3GammaAnnihilationOnFly(G4bool v); << 228 << 229 G4bool UseRiGePairProductionModel() const; << 230 void SetUseRiGePairProductionModel(G4bool v) << 231 << 232 // 5d 184 // 5d 233 void SetOnIsolated(G4bool val); << 185 void SetOnIsolated(G4bool val); 234 G4bool OnIsolated() const; << 186 G4bool OnIsolated() const; 235 187 236 void ActivateDNA(); << 188 void ActivateDNA(); 237 void SetIsPrintedFlag(G4bool val); << 238 G4bool IsPrintLocked() const; << 239 189 240 // double parameters with values 190 // double parameters with values >> 191 void SetMinSubRange(G4double val); >> 192 G4double MinSubRange() const; >> 193 241 void SetMinEnergy(G4double val); 194 void SetMinEnergy(G4double val); 242 G4double MinKinEnergy() const; 195 G4double MinKinEnergy() const; 243 196 244 void SetMaxEnergy(G4double val); 197 void SetMaxEnergy(G4double val); 245 G4double MaxKinEnergy() const; 198 G4double MaxKinEnergy() const; 246 199 247 void SetMaxEnergyForCSDARange(G4double val); 200 void SetMaxEnergyForCSDARange(G4double val); 248 G4double MaxEnergyForCSDARange() const; 201 G4double MaxEnergyForCSDARange() const; 249 202 250 void SetLowestElectronEnergy(G4double val); 203 void SetLowestElectronEnergy(G4double val); 251 G4double LowestElectronEnergy() const; 204 G4double LowestElectronEnergy() const; 252 205 253 void SetLowestMuHadEnergy(G4double val); 206 void SetLowestMuHadEnergy(G4double val); 254 G4double LowestMuHadEnergy() const; 207 G4double LowestMuHadEnergy() const; 255 208 256 void SetLowestTripletEnergy(G4double val); 209 void SetLowestTripletEnergy(G4double val); 257 G4double LowestTripletEnergy() const; 210 G4double LowestTripletEnergy() const; 258 211 259 void SetLinearLossLimit(G4double val); 212 void SetLinearLossLimit(G4double val); 260 G4double LinearLossLimit() const; 213 G4double LinearLossLimit() const; 261 214 262 void SetBremsstrahlungTh(G4double val); 215 void SetBremsstrahlungTh(G4double val); 263 G4double BremsstrahlungTh() const; 216 G4double BremsstrahlungTh() const; 264 void SetMuHadBremsstrahlungTh(G4double val); 217 void SetMuHadBremsstrahlungTh(G4double val); 265 G4double MuHadBremsstrahlungTh() const; 218 G4double MuHadBremsstrahlungTh() const; 266 219 267 void SetLambdaFactor(G4double val); 220 void SetLambdaFactor(G4double val); 268 G4double LambdaFactor() const; 221 G4double LambdaFactor() const; 269 222 270 void SetFactorForAngleLimit(G4double val); 223 void SetFactorForAngleLimit(G4double val); 271 G4double FactorForAngleLimit() const; 224 G4double FactorForAngleLimit() const; 272 225 273 void SetMscThetaLimit(G4double val); 226 void SetMscThetaLimit(G4double val); 274 G4double MscThetaLimit() const; 227 G4double MscThetaLimit() const; 275 228 276 void SetMscEnergyLimit(G4double val); 229 void SetMscEnergyLimit(G4double val); 277 G4double MscEnergyLimit() const; 230 G4double MscEnergyLimit() const; 278 231 279 void SetMscRangeFactor(G4double val); 232 void SetMscRangeFactor(G4double val); 280 G4double MscRangeFactor() const; 233 G4double MscRangeFactor() const; 281 234 282 void SetMscMuHadRangeFactor(G4double val); 235 void SetMscMuHadRangeFactor(G4double val); 283 G4double MscMuHadRangeFactor() const; 236 G4double MscMuHadRangeFactor() const; 284 237 285 void SetMscGeomFactor(G4double val); 238 void SetMscGeomFactor(G4double val); 286 G4double MscGeomFactor() const; 239 G4double MscGeomFactor() const; 287 240 288 void SetMscSafetyFactor(G4double val); 241 void SetMscSafetyFactor(G4double val); 289 G4double MscSafetyFactor() const; 242 G4double MscSafetyFactor() const; 290 243 291 void SetMscLambdaLimit(G4double val); 244 void SetMscLambdaLimit(G4double val); 292 G4double MscLambdaLimit() const; 245 G4double MscLambdaLimit() const; 293 246 294 void SetMscSkin(G4double val); 247 void SetMscSkin(G4double val); 295 G4double MscSkin() const; 248 G4double MscSkin() const; 296 249 297 void SetScreeningFactor(G4double val); 250 void SetScreeningFactor(G4double val); 298 G4double ScreeningFactor() const; 251 G4double ScreeningFactor() const; 299 252 300 void SetMaxNIELEnergy(G4double val); 253 void SetMaxNIELEnergy(G4double val); 301 G4double MaxNIELEnergy() const; 254 G4double MaxNIELEnergy() const; 302 255 303 void SetMaxEnergyFor5DMuPair(G4double val); 256 void SetMaxEnergyFor5DMuPair(G4double val); 304 G4double MaxEnergyFor5DMuPair() const; 257 G4double MaxEnergyFor5DMuPair() const; 305 258 306 void SetStepFunction(G4double v1, G4double v 259 void SetStepFunction(G4double v1, G4double v2); 307 void SetStepFunctionMuHad(G4double v1, G4dou 260 void SetStepFunctionMuHad(G4double v1, G4double v2); 308 void SetStepFunctionLightIons(G4double v1, G 261 void SetStepFunctionLightIons(G4double v1, G4double v2); 309 void SetStepFunctionIons(G4double v1, G4doub 262 void SetStepFunctionIons(G4double v1, G4double v2); 310 void FillStepFunction(const G4ParticleDefini 263 void FillStepFunction(const G4ParticleDefinition*, G4VEnergyLossProcess*) const; 311 264 312 void SetDirectionalSplittingRadius(G4double 265 void SetDirectionalSplittingRadius(G4double r); 313 G4double GetDirectionalSplittingRadius(); 266 G4double GetDirectionalSplittingRadius(); 314 267 315 void SetDirectionalSplittingTarget(const G4T 268 void SetDirectionalSplittingTarget(const G4ThreeVector& v); 316 G4ThreeVector GetDirectionalSplittingTarget( 269 G4ThreeVector GetDirectionalSplittingTarget() const; 317 270 318 // integer parameters 271 // integer parameters 319 << 272 void SetNumberOfBins(G4int val); >> 273 G4int NumberOfBins() const; >> 274 320 void SetNumberOfBinsPerDecade(G4int val); 275 void SetNumberOfBinsPerDecade(G4int val); 321 G4int NumberOfBinsPerDecade() const; 276 G4int NumberOfBinsPerDecade() const; 322 G4int NumberOfBins() const; << 323 277 324 void SetVerbose(G4int val); 278 void SetVerbose(G4int val); 325 G4int Verbose() const; 279 G4int Verbose() const; 326 280 327 void SetWorkerVerbose(G4int val); 281 void SetWorkerVerbose(G4int val); 328 G4int WorkerVerbose() const; 282 G4int WorkerVerbose() const; 329 283 330 void SetNumberForFreeVector(G4int val); << 331 G4int NumberForFreeVector() const; << 332 << 333 void SetTransportationWithMsc(G4Transportati << 334 G4TransportationWithMscType TransportationWi << 335 << 336 void SetMscStepLimitType(G4MscStepLimitType 284 void SetMscStepLimitType(G4MscStepLimitType val); 337 G4MscStepLimitType MscStepLimitType() const; 285 G4MscStepLimitType MscStepLimitType() const; 338 286 339 void SetMscMuHadStepLimitType(G4MscStepLimit 287 void SetMscMuHadStepLimitType(G4MscStepLimitType val); 340 G4MscStepLimitType MscMuHadStepLimitType() c 288 G4MscStepLimitType MscMuHadStepLimitType() const; 341 289 342 void SetSingleScatteringType(G4eSingleScatte 290 void SetSingleScatteringType(G4eSingleScatteringType val); 343 G4eSingleScatteringType SingleScatteringType 291 G4eSingleScatteringType SingleScatteringType() const; 344 292 345 void SetNuclearFormfactorType(G4NuclearFormf 293 void SetNuclearFormfactorType(G4NuclearFormfactorType val); 346 G4NuclearFormfactorType NuclearFormfactorTyp 294 G4NuclearFormfactorType NuclearFormfactorType() const; 347 295 348 void SetDNAeSolvationSubType(G4DNAModelSubTy 296 void SetDNAeSolvationSubType(G4DNAModelSubType val); 349 G4DNAModelSubType DNAeSolvationSubType() con 297 G4DNAModelSubType DNAeSolvationSubType() const; 350 298 351 //DNA chemistry model << 352 void SetTimeStepModel(const G4ChemTimeStepMo << 353 G4ChemTimeStepModel GetTimeStepModel() const << 354 //5d 299 //5d 355 void SetConversionType(G4int val); 300 void SetConversionType(G4int val); 356 G4int GetConversionType() const; 301 G4int GetConversionType() const; 357 302 358 // string parameters 303 // string parameters 359 void SetPIXECrossSectionModel(const G4String 304 void SetPIXECrossSectionModel(const G4String&); 360 const G4String& PIXECrossSectionModel(); 305 const G4String& PIXECrossSectionModel(); 361 306 362 void SetPIXEElectronCrossSectionModel(const 307 void SetPIXEElectronCrossSectionModel(const G4String&); 363 const G4String& PIXEElectronCrossSectionMode 308 const G4String& PIXEElectronCrossSectionModel(); 364 309 365 void SetLivermoreDataDir(const G4String&); 310 void SetLivermoreDataDir(const G4String&); 366 const G4String& LivermoreDataDir(); 311 const G4String& LivermoreDataDir(); 367 312 368 // parameters per region or per process 313 // parameters per region or per process 369 void AddPAIModel(const G4String& particle, 314 void AddPAIModel(const G4String& particle, 370 const G4String& region, 315 const G4String& region, 371 const G4String& type); 316 const G4String& type); 372 const std::vector<G4String>& ParticlesPAI() 317 const std::vector<G4String>& ParticlesPAI() const; 373 const std::vector<G4String>& RegionsPAI() co 318 const std::vector<G4String>& RegionsPAI() const; 374 const std::vector<G4String>& TypesPAI() cons 319 const std::vector<G4String>& TypesPAI() const; 375 320 376 void AddMicroElec(const G4String& region); 321 void AddMicroElec(const G4String& region); 377 const std::vector<G4String>& RegionsMicroEle 322 const std::vector<G4String>& RegionsMicroElec() const; 378 323 379 void AddDNA(const G4String& region, const G4 324 void AddDNA(const G4String& region, const G4String& type); 380 const std::vector<G4String>& RegionsDNA() co 325 const std::vector<G4String>& RegionsDNA() const; 381 const std::vector<G4String>& TypesDNA() cons 326 const std::vector<G4String>& TypesDNA() const; 382 327 383 void AddPhysics(const G4String& region, cons 328 void AddPhysics(const G4String& region, const G4String& type); 384 const std::vector<G4String>& RegionsPhysics( 329 const std::vector<G4String>& RegionsPhysics() const; 385 const std::vector<G4String>& TypesPhysics() 330 const std::vector<G4String>& TypesPhysics() const; 386 331 387 void SetSubCutRegion(const G4String& region << 332 void SetSubCutoff(G4bool val, const G4String& region = ""); 388 333 389 void SetDeexActiveRegion(const G4String& reg 334 void SetDeexActiveRegion(const G4String& region, G4bool fdeex, 390 G4bool fauger, G4bool fpixe); 335 G4bool fauger, G4bool fpixe); 391 336 392 void SetProcessBiasingFactor(const G4String& 337 void SetProcessBiasingFactor(const G4String& procname, 393 G4double val, G 338 G4double val, G4bool wflag); 394 339 395 void ActivateForcedInteraction(const G4Strin 340 void ActivateForcedInteraction(const G4String& procname, 396 const G4Strin 341 const G4String& region, 397 G4double leng 342 G4double length, 398 G4bool wflag) 343 G4bool wflag); 399 344 400 void ActivateSecondaryBiasing(const G4String 345 void ActivateSecondaryBiasing(const G4String& name, 401 const G4String& region, 346 const G4String& region, 402 G4double factor, 347 G4double factor, 403 G4double energyLimit); 348 G4double energyLimit); 404 349 405 // define external saturation class << 406 void SetEmSaturation(G4EmSaturation*); 350 void SetEmSaturation(G4EmSaturation*); 407 // create and access saturation class << 408 G4EmSaturation* GetEmSaturation(); 351 G4EmSaturation* GetEmSaturation(); 409 352 410 // initialisation methods 353 // initialisation methods 411 void DefineRegParamForLoss(G4VEnergyLossProc 354 void DefineRegParamForLoss(G4VEnergyLossProcess*) const; 412 void DefineRegParamForEM(G4VEmProcess*) cons 355 void DefineRegParamForEM(G4VEmProcess*) const; 413 void DefineRegParamForDeex(G4VAtomDeexcitati 356 void DefineRegParamForDeex(G4VAtomDeexcitation*) const; 414 357 415 const G4String& GetDirLEDATA() const; << 416 << 417 G4EmParameters(G4EmParameters &) = delete; 358 G4EmParameters(G4EmParameters &) = delete; 418 G4EmParameters & operator=(const G4EmParamet 359 G4EmParameters & operator=(const G4EmParameters &right) = delete; 419 360 420 private: 361 private: 421 362 422 G4EmParameters(); 363 G4EmParameters(); 423 364 424 void Initialise(); 365 void Initialise(); 425 366 426 G4bool IsLocked() const; 367 G4bool IsLocked() const; 427 368 428 void PrintWarning(G4ExceptionDescription& ed 369 void PrintWarning(G4ExceptionDescription& ed) const; 429 370 430 static G4EmParameters* theInstance; 371 static G4EmParameters* theInstance; 431 372 432 G4EmParametersMessenger* theMessenger; 373 G4EmParametersMessenger* theMessenger; 433 G4EmExtraParameters* fBParameters; 374 G4EmExtraParameters* fBParameters; 434 G4EmLowEParameters* fCParameters; 375 G4EmLowEParameters* fCParameters; 435 G4StateManager* fStateManager; 376 G4StateManager* fStateManager; 436 G4EmSaturation* emSaturation; 377 G4EmSaturation* emSaturation; 437 378 438 G4bool lossFluctuation; 379 G4bool lossFluctuation; 439 G4bool buildCSDARange; 380 G4bool buildCSDARange; 440 G4bool flagLPM; 381 G4bool flagLPM; >> 382 G4bool spline; 441 G4bool cutAsFinalRange; 383 G4bool cutAsFinalRange; 442 G4bool applyCuts; 384 G4bool applyCuts; 443 G4bool lateralDisplacement; 385 G4bool lateralDisplacement; 444 G4bool lateralDisplacementAlg96; 386 G4bool lateralDisplacementAlg96; 445 G4bool muhadLateralDisplacement; 387 G4bool muhadLateralDisplacement; 446 G4bool useAngGeneratorForIonisation; 388 G4bool useAngGeneratorForIonisation; 447 G4bool useMottCorrection; 389 G4bool useMottCorrection; 448 G4bool integral; 390 G4bool integral; 449 G4bool birks; 391 G4bool birks; 450 G4bool fICRU90; 392 G4bool fICRU90; 451 G4bool gener; 393 G4bool gener; 452 G4bool fSamplingTable; 394 G4bool fSamplingTable; 453 G4bool fPolarisation; 395 G4bool fPolarisation; 454 G4bool fMuDataFromFile; 396 G4bool fMuDataFromFile; 455 G4bool fPEKShell; << 456 G4bool fMscPosiCorr; << 457 G4bool fUseEPICS2017XS; << 458 G4bool f3GammaAnnihilationOnFly; << 459 G4bool fUseRiGePairProductionModel; << 460 G4bool onIsolated; // 5d model conversion on 397 G4bool onIsolated; // 5d model conversion on free ions 461 G4bool fDNA; 398 G4bool fDNA; 462 G4bool fIsPrinted; << 463 399 >> 400 G4double minSubRange; 464 G4double minKinEnergy; 401 G4double minKinEnergy; 465 G4double maxKinEnergy; 402 G4double maxKinEnergy; 466 G4double maxKinEnergyCSDA; 403 G4double maxKinEnergyCSDA; 467 G4double max5DEnergyForMuPair; 404 G4double max5DEnergyForMuPair; 468 G4double lowestElectronEnergy; 405 G4double lowestElectronEnergy; 469 G4double lowestMuHadEnergy; 406 G4double lowestMuHadEnergy; 470 G4double lowestTripletEnergy; 407 G4double lowestTripletEnergy; 471 G4double linLossLimit; 408 G4double linLossLimit; 472 G4double bremsTh; 409 G4double bremsTh; 473 G4double bremsMuHadTh; 410 G4double bremsMuHadTh; 474 G4double lambdaFactor; 411 G4double lambdaFactor; 475 G4double factorForAngleLimit; 412 G4double factorForAngleLimit; 476 G4double thetaLimit; 413 G4double thetaLimit; 477 G4double energyLimit; 414 G4double energyLimit; 478 G4double maxNIELEnergy; 415 G4double maxNIELEnergy; 479 G4double rangeFactor; 416 G4double rangeFactor; 480 G4double rangeFactorMuHad; 417 G4double rangeFactorMuHad; 481 G4double geomFactor; 418 G4double geomFactor; 482 G4double safetyFactor; 419 G4double safetyFactor; 483 G4double lambdaLimit; 420 G4double lambdaLimit; 484 G4double skin; 421 G4double skin; 485 G4double factorScreen; 422 G4double factorScreen; 486 423 >> 424 G4int nbins; 487 G4int nbinsPerDecade; 425 G4int nbinsPerDecade; 488 G4int verbose; 426 G4int verbose; 489 G4int workerVerbose; 427 G4int workerVerbose; 490 G4int nForFreeVector; << 491 G4int tripletConv; // 5d model triplet gene 428 G4int tripletConv; // 5d model triplet generation type 492 429 493 G4TransportationWithMscType fTransportationW << 494 G4MscStepLimitType mscStepLimit; 430 G4MscStepLimitType mscStepLimit; 495 G4MscStepLimitType mscStepLimitMuHad; 431 G4MscStepLimitType mscStepLimitMuHad; 496 G4NuclearFormfactorType nucFormfactor; 432 G4NuclearFormfactorType nucFormfactor; 497 G4eSingleScatteringType fSStype; 433 G4eSingleScatteringType fSStype; 498 G4EmFluctuationType fFluct; << 499 G4PositronAtRestModelType fPositronium; << 500 434 501 G4String fDirLEDATA; << 435 #ifdef G4MULTITHREADED >> 436 static G4Mutex emParametersMutex; >> 437 #endif 502 }; 438 }; 503 439 504 //....oooOO0OOooo........oooOO0OOooo........oo 440 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... 505 441 506 #endif 442 #endif 507 443 508 444