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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 // $Id: G4Decay.cc,v 1.32 2010-10-30 06:51:05 kurasige Exp $ >> 28 // GEANT4 tag $Name: geant4-09-04-patch-01 $ 27 // 29 // 28 // 30 // 29 // ------------------------------------------- 31 // -------------------------------------------------------------- 30 // GEANT 4 class implementation file 32 // GEANT 4 class implementation file 31 // 33 // 32 // History: first implementation, based o 34 // History: first implementation, based on object model of 33 // 2nd December 1995, G.Cosmo 35 // 2nd December 1995, G.Cosmo 34 // 7 July 1996 H.Kurashige 36 // 7 July 1996 H.Kurashige 35 // ------------------------------------------- 37 // ------------------------------------------------------------ 36 // remove BuildPhysicsTable() 28 Nov. 1997 38 // remove BuildPhysicsTable() 28 Nov. 1997 H.Kurashige 37 // change DBL_EPSIRON to DBL_MIN 14 Dec. 19 39 // change DBL_EPSIRON to DBL_MIN 14 Dec. 1997 H.Kurashige 38 // modified for new ParticleChange 12 Mar. 1 40 // modified for new ParticleChange 12 Mar. 1998 H.Kurashige 39 // modified for "GoodForTrackingFlag" 19 Jun 41 // modified for "GoodForTrackingFlag" 19 June 1998 H.Kurashige 40 // rename thePhysicsTable to aPhyscisTable 2 42 // rename thePhysicsTable to aPhyscisTable 2 Aug. 1998 H.Kurashige 41 // modified IsApplicable in order to protect 43 // modified IsApplicable in order to protect the decay from registered 42 // to resonances 12 Dec. 1998 H.Kurashi 44 // to resonances 12 Dec. 1998 H.Kurashige 43 // remove G4ParticleMomentum 6 Feb. 99 H.Ku 45 // remove G4ParticleMomentum 6 Feb. 99 H.Kurashige 44 // modified IsApplicable to activate G4Deca 46 // modified IsApplicable to activate G4Decay for resonances 1 Mar. 00 H.Kurashige 45 // Add External Decayer 23 Feb. 2001 47 // Add External Decayer 23 Feb. 2001 H.Kurashige 46 // change LowestBinValue,HighestBinValue and 48 // change LowestBinValue,HighestBinValue and TotBin(200) 9 Feb. 2002 47 // 49 // 48 50 49 #include "G4Decay.hh" 51 #include "G4Decay.hh" 50 << 51 #include "G4PhysicalConstants.hh" << 52 #include "G4SystemOfUnits.hh" << 53 #include "G4DynamicParticle.hh" 52 #include "G4DynamicParticle.hh" 54 #include "G4DecayProducts.hh" 53 #include "G4DecayProducts.hh" 55 #include "G4DecayTable.hh" 54 #include "G4DecayTable.hh" 56 #include "G4VDecayChannel.hh" << 57 #include "G4PhysicsLogVector.hh" 55 #include "G4PhysicsLogVector.hh" 58 #include "G4ParticleChangeForDecay.hh" 56 #include "G4ParticleChangeForDecay.hh" 59 #include "G4VExtDecayer.hh" 57 #include "G4VExtDecayer.hh" 60 58 61 // constructor 59 // constructor 62 G4Decay::G4Decay(const G4String& processName) 60 G4Decay::G4Decay(const G4String& processName) 63 :G4VRestDiscret 61 :G4VRestDiscreteProcess(processName, fDecay), 64 verboseLevel(1), 62 verboseLevel(1), 65 HighestValue(2 63 HighestValue(20.0), 66 fRemainderLifeTime(-1.0), 64 fRemainderLifeTime(-1.0), 67 pExtDecayer(nu << 65 pExtDecayer(0) 68 { 66 { 69 // set Process Sub Type 67 // set Process Sub Type 70 SetProcessSubType(static_cast<int>(DECAY)); 68 SetProcessSubType(static_cast<int>(DECAY)); 71 69 72 #ifdef G4VERBOSE 70 #ifdef G4VERBOSE 73 if (GetVerboseLevel()>1) { 71 if (GetVerboseLevel()>1) { 74 G4cout << "G4Decay constructor " << " Na 72 G4cout << "G4Decay constructor " << " Name:" << processName << G4endl; 75 } 73 } 76 #endif 74 #endif 77 75 78 pParticleChange = &fParticleChangeForDecay; 76 pParticleChange = &fParticleChangeForDecay; 79 } 77 } 80 78 81 G4Decay::~G4Decay() 79 G4Decay::~G4Decay() 82 { 80 { 83 if (pExtDecayer != nullptr) { << 81 if (pExtDecayer) { 84 delete pExtDecayer; 82 delete pExtDecayer; 85 } 83 } 86 } 84 } 87 85 88 G4bool G4Decay::IsApplicable(const G4ParticleD 86 G4bool G4Decay::IsApplicable(const G4ParticleDefinition& aParticleType) 89 { 87 { 90 // check if the particle is stable? 88 // check if the particle is stable? 91 if (aParticleType.GetPDGLifeTime() <0.0) { 89 if (aParticleType.GetPDGLifeTime() <0.0) { 92 return false; 90 return false; 93 } else if (aParticleType.GetPDGMass() <= 0. 91 } else if (aParticleType.GetPDGMass() <= 0.0*MeV) { 94 return false; 92 return false; 95 } else { 93 } else { 96 return true; 94 return true; 97 } 95 } 98 } 96 } 99 97 100 G4double G4Decay::GetMeanLifeTime(const G4Trac 98 G4double G4Decay::GetMeanLifeTime(const G4Track& aTrack , 101 G4ForceCondi 99 G4ForceCondition*) 102 { 100 { 103 // returns the mean free path in GEANT4 int 101 // returns the mean free path in GEANT4 internal units 104 G4double meanlife; 102 G4double meanlife; 105 103 106 // get particle 104 // get particle 107 const G4DynamicParticle* aParticle = aTrack 105 const G4DynamicParticle* aParticle = aTrack.GetDynamicParticle(); 108 const G4ParticleDefinition* aParticleDef = 106 const G4ParticleDefinition* aParticleDef = aParticle->GetDefinition(); 109 G4double aLife = aParticleDef->GetPDGLifeTi 107 G4double aLife = aParticleDef->GetPDGLifeTime(); 110 108 111 // check if the particle is stable? 109 // check if the particle is stable? 112 if (aParticleDef->GetPDGStable()) { 110 if (aParticleDef->GetPDGStable()) { 113 //1000000 times the life time of the unive << 111 meanlife = DBL_MAX; 114 meanlife = 1e24 * s; << 115 112 116 } else { 113 } else { 117 meanlife = aLife; 114 meanlife = aLife; 118 } 115 } 119 116 120 #ifdef G4VERBOSE 117 #ifdef G4VERBOSE 121 if (GetVerboseLevel()>1) { 118 if (GetVerboseLevel()>1) { 122 G4cout << "mean life time: "<< meanlife/n 119 G4cout << "mean life time: "<< meanlife/ns << "[ns]" << G4endl; 123 } 120 } 124 #endif 121 #endif 125 122 126 return meanlife; 123 return meanlife; 127 } 124 } 128 125 129 G4double G4Decay::GetMeanFreePath(const G4Trac 126 G4double G4Decay::GetMeanFreePath(const G4Track& aTrack,G4double, G4ForceCondition*) 130 { 127 { 131 // get particle 128 // get particle 132 const G4DynamicParticle* aParticle = aTrack 129 const G4DynamicParticle* aParticle = aTrack.GetDynamicParticle(); 133 const G4ParticleDefinition* aParticleDef = 130 const G4ParticleDefinition* aParticleDef = aParticle->GetDefinition(); 134 G4double aMass = aParticle->GetMass(); 131 G4double aMass = aParticle->GetMass(); 135 G4double aLife = aParticleDef->GetPDGLifeTi 132 G4double aLife = aParticleDef->GetPDGLifeTime(); 136 133 137 134 138 // returns the mean free path in GEANT4 in 135 // returns the mean free path in GEANT4 internal units 139 G4double pathlength; 136 G4double pathlength; 140 G4double aCtau = c_light * aLife; 137 G4double aCtau = c_light * aLife; 141 138 142 // check if the particle is stable? 139 // check if the particle is stable? 143 if (aParticleDef->GetPDGStable()) { 140 if (aParticleDef->GetPDGStable()) { 144 pathlength = DBL_MAX; 141 pathlength = DBL_MAX; 145 142 146 //check if the particle has very short life 143 //check if the particle has very short life time ? 147 } else if (aCtau < DBL_MIN) { 144 } else if (aCtau < DBL_MIN) { 148 pathlength = DBL_MIN; 145 pathlength = DBL_MIN; 149 146 150 } else { 147 } else { 151 //calculate the mean free path 148 //calculate the mean free path 152 // by using normalized kinetic energy (= E 149 // by using normalized kinetic energy (= Ekin/mass) 153 G4double rKineticEnergy = aParticle->Ge 150 G4double rKineticEnergy = aParticle->GetKineticEnergy()/aMass; 154 if ( rKineticEnergy > HighestValue) { 151 if ( rKineticEnergy > HighestValue) { 155 // gamma >> 1 152 // gamma >> 1 156 pathlength = ( rKineticEnergy + 1.0)* a 153 pathlength = ( rKineticEnergy + 1.0)* aCtau; 157 } else if ( rKineticEnergy < DBL_MIN ) { 154 } else if ( rKineticEnergy < DBL_MIN ) { 158 // too slow particle 155 // too slow particle 159 #ifdef G4VERBOSE 156 #ifdef G4VERBOSE 160 if (GetVerboseLevel()>1) { 157 if (GetVerboseLevel()>1) { 161 G4cout << "G4Decay::GetMeanFreePath() !!p 158 G4cout << "G4Decay::GetMeanFreePath() !!particle stops!!"; 162 G4cout << aParticleDef->GetParticleNa 159 G4cout << aParticleDef->GetParticleName() << G4endl; 163 G4cout << "KineticEnergy:" << aParticle->Ge 160 G4cout << "KineticEnergy:" << aParticle->GetKineticEnergy()/GeV <<"[GeV]"; 164 } 161 } 165 #endif 162 #endif 166 pathlength = DBL_MIN; 163 pathlength = DBL_MIN; 167 } else { 164 } else { 168 // beta <1 165 // beta <1 169 pathlength = (aParticle->GetTotalMoment 166 pathlength = (aParticle->GetTotalMomentum())/aMass*aCtau ; 170 } 167 } 171 } 168 } 172 return pathlength; 169 return pathlength; 173 } 170 } 174 171 175 void G4Decay::BuildPhysicsTable(const G4Partic 172 void G4Decay::BuildPhysicsTable(const G4ParticleDefinition&) 176 { 173 { 177 return; 174 return; 178 } 175 } 179 176 180 G4VParticleChange* G4Decay::DecayIt(const G4Tr 177 G4VParticleChange* G4Decay::DecayIt(const G4Track& aTrack, const G4Step& ) 181 { 178 { 182 // The DecayIt() method returns by pointer a 179 // The DecayIt() method returns by pointer a particle-change object. 183 // Units are expressed in GEANT4 internal un 180 // Units are expressed in GEANT4 internal units. 184 181 185 // Initialize ParticleChange 182 // Initialize ParticleChange 186 // all members of G4VParticleChange are 183 // all members of G4VParticleChange are set to equal to 187 // corresponding member in G4Track 184 // corresponding member in G4Track 188 fParticleChangeForDecay.Initialize(aTrack); 185 fParticleChangeForDecay.Initialize(aTrack); 189 186 190 // get particle 187 // get particle 191 const G4DynamicParticle* aParticle = aTrack. 188 const G4DynamicParticle* aParticle = aTrack.GetDynamicParticle(); 192 const G4ParticleDefinition* aParticleDef = a 189 const G4ParticleDefinition* aParticleDef = aParticle->GetDefinition(); 193 190 194 // check if the particle is stable 191 // check if the particle is stable 195 if (aParticleDef->GetPDGStable()) return &fP 192 if (aParticleDef->GetPDGStable()) return &fParticleChangeForDecay ; 196 193 197 194 198 //check if thePreAssignedDecayProducts exist 195 //check if thePreAssignedDecayProducts exists 199 const G4DecayProducts* o_products = (aPartic 196 const G4DecayProducts* o_products = (aParticle->GetPreAssignedDecayProducts()); 200 G4bool isPreAssigned = (o_products != nullpt << 197 G4bool isPreAssigned = (o_products != 0); 201 G4DecayProducts* products = nullptr; << 198 G4DecayProducts* products = 0; 202 199 203 // decay table 200 // decay table 204 G4DecayTable *decaytable = aParticleDef->G 201 G4DecayTable *decaytable = aParticleDef->GetDecayTable(); 205 202 206 // check if external decayer exists 203 // check if external decayer exists 207 G4bool isExtDecayer = (decaytable == nullptr << 204 G4bool isExtDecayer = (decaytable == 0) && (pExtDecayer !=0); 208 205 209 // Error due to NO Decay Table 206 // Error due to NO Decay Table 210 if ( (decaytable == nullptr) && !isExtDecaye << 207 if ( (decaytable == 0) && !isExtDecayer &&!isPreAssigned ){ 211 if (GetVerboseLevel()>0) { 208 if (GetVerboseLevel()>0) { 212 G4cout << "G4Decay::DoIt : decay table 209 G4cout << "G4Decay::DoIt : decay table not defined for "; 213 G4cout << aParticle->GetDefinition()->Ge 210 G4cout << aParticle->GetDefinition()->GetParticleName()<< G4endl; 214 } 211 } 215 G4ExceptionDescription ed; << 216 ed << "For " << aParticle->GetDefinition() << 217 << " decay probability exist but decay << 218 << "- the particle will be killed;\n" << 219 << " isExtDecayer: " << isExtDecayer << 220 << "; isPreAssigned: " << isPreAssigned << 221 G4Exception( "G4Decay::DecayIt ", 212 G4Exception( "G4Decay::DecayIt ", 222 "DECAY101",JustWarning, ed); << 213 "No Decay Table",JustWarning, >> 214 "Decay table is not defined"); 223 215 224 fParticleChangeForDecay.SetNumberOfSeconda 216 fParticleChangeForDecay.SetNumberOfSecondaries(0); 225 // Kill the parent particle 217 // Kill the parent particle 226 fParticleChangeForDecay.ProposeTrackStatus 218 fParticleChangeForDecay.ProposeTrackStatus( fStopAndKill ) ; 227 fParticleChangeForDecay.ProposeLocalEnergy 219 fParticleChangeForDecay.ProposeLocalEnergyDeposit(0.0); 228 220 229 ClearNumberOfInteractionLengthLeft(); 221 ClearNumberOfInteractionLengthLeft(); 230 return &fParticleChangeForDecay ; 222 return &fParticleChangeForDecay ; 231 } 223 } 232 224 233 if (isPreAssigned) { 225 if (isPreAssigned) { 234 // copy decay products 226 // copy decay products 235 products = new G4DecayProducts(*o_products 227 products = new G4DecayProducts(*o_products); 236 } else if ( isExtDecayer ) { 228 } else if ( isExtDecayer ) { 237 // decay according to external decayer 229 // decay according to external decayer 238 products = pExtDecayer->ImportDecayProduct 230 products = pExtDecayer->ImportDecayProducts(aTrack); 239 } else { 231 } else { 240 // Decay according to decay table. << 232 // decay acoording to decay table 241 // Keep trying to choose a candidate decay << 233 // choose a decay channel 242 // of the decaying particle is below the s << 234 G4VDecayChannel *decaychannel = decaytable->SelectADecayChannel(); 243 // candidate daughter particles. << 235 if (decaychannel == 0 ){ 244 // This is needed because the decay table << 245 // the assumption of nominal PDG masses, b << 246 // a dynamic masses well below its nominal << 247 // some of its decay channels can be below << 248 // Note that, for simplicity, we ignore he << 249 // one or more of the candidate daughter p << 250 // wide resonance. However, if this is the << 251 // accepted, then the masses of the resona << 252 // be sampled by taking into account their << 253 G4VDecayChannel* decaychannel = nullptr; << 254 G4double massParent = aParticle->GetMass() << 255 decaychannel = decaytable->SelectADecayCha << 256 if ( decaychannel == nullptr) { << 257 // decay channel not found 236 // decay channel not found 258 G4ExceptionDescription ed; << 237 G4Exception("G4Decay::DoIt : can not determine decay channel "); 259 ed << "Can not determine decay channel f << 260 << aParticleDef->GetParticleName() << G4end << 261 << " mass of dynamic particle: " << 262 << massParent/GeV << " (GEV)" << G4endl << 263 << " dacay table has " << decaytable->entr << 264 << " entries" << G4endl; << 265 G4double checkedmass=massParent; << 266 if (massParent < 0.) { << 267 checkedmass=aParticleDef->GetPDGMass(); << 268 ed << "Using PDG mass ("<<checkedmass/GeV << 269 << "(GeV)) in IsOKWithParentMass" << G4en << 270 } << 271 for (G4int ic =0;ic <decaytable->entries << 272 G4VDecayChannel * dc= decaytable->GetDecayCh << 273 ed << ic << ": BR " << dc->GetBR() << ", IsO << 274 << dc->IsOKWithParentMass(checkedmass) << 275 << ", --> "; << 276 G4int ndaughters=dc->GetNumberOfDaughters(); << 277 for (G4int id=0;id<ndaughters;++id) { << 278 if (id>0) ed << " + "; // seperator, exc << 279 ed << dc->GetDaughterName(id); << 280 } << 281 ed << G4endl; << 282 } << 283 G4Exception("G4Decay::DoIt", "DECAY003", << 284 } else { 238 } else { 285 // execute DecayIt() 239 // execute DecayIt() 286 #ifdef G4VERBOSE 240 #ifdef G4VERBOSE 287 G4int temp = decaychannel->GetVerboseLev 241 G4int temp = decaychannel->GetVerboseLevel(); 288 if (GetVerboseLevel()>1) { 242 if (GetVerboseLevel()>1) { 289 G4cout << "G4Decay::DoIt : selected decay c << 243 G4cout << "G4Decay::DoIt : selected decay channel addr:" << decaychannel <<G4endl; 290 << decaychannel <<G4endl; << 291 decaychannel->SetVerboseLevel(GetVerboseLeve 244 decaychannel->SetVerboseLevel(GetVerboseLevel()); 292 } 245 } 293 #endif 246 #endif 294 products = decaychannel->DecayIt(aPartic 247 products = decaychannel->DecayIt(aParticle->GetMass()); 295 #ifdef G4VERBOSE 248 #ifdef G4VERBOSE 296 if (GetVerboseLevel()>1) { 249 if (GetVerboseLevel()>1) { 297 decaychannel->SetVerboseLevel(temp); 250 decaychannel->SetVerboseLevel(temp); 298 } 251 } 299 #endif 252 #endif 300 #ifdef G4VERBOSE 253 #ifdef G4VERBOSE 301 if (GetVerboseLevel()>2) { 254 if (GetVerboseLevel()>2) { 302 if (! products->IsChecked() ) products->Dump 255 if (! products->IsChecked() ) products->DumpInfo(); 303 } 256 } 304 #endif 257 #endif 305 } 258 } 306 } 259 } 307 260 308 // get parent particle information ......... 261 // get parent particle information ................................... 309 G4double ParentEnergy = aParticle->GetTot 262 G4double ParentEnergy = aParticle->GetTotalEnergy(); 310 G4double ParentMass = aParticle->GetMas 263 G4double ParentMass = aParticle->GetMass(); 311 if (ParentEnergy < ParentMass) { 264 if (ParentEnergy < ParentMass) { 312 G4ExceptionDescription ed; << 313 ed << "Total Energy is less than its mass << 314 << "\n Particle: " << aParticle->GetDef << 315 << "\n Energy:" << ParentEnergy/MeV << 316 << "\n Mass:" << ParentMass/MeV << << 317 G4Exception( "G4Decay::DecayIt ", << 318 "DECAY102",JustWarning, ed); << 319 ParentEnergy = ParentMass; 265 ParentEnergy = ParentMass; >> 266 if (GetVerboseLevel()>0) { >> 267 G4cout << "G4Decay::DoIt : Total Energy is less than its mass" << G4endl; >> 268 G4cout << " Particle: " << aParticle->GetDefinition()->GetParticleName(); >> 269 G4cout << " Energy:" << ParentEnergy/MeV << "[MeV]"; >> 270 G4cout << " Mass:" << ParentMass/MeV << "[MeV]"; >> 271 G4cout << G4endl; >> 272 } 320 } 273 } 321 274 322 G4ThreeVector ParentDirection(aParticle->Get 275 G4ThreeVector ParentDirection(aParticle->GetMomentumDirection()); 323 276 324 //boost all decay products to laboratory fra 277 //boost all decay products to laboratory frame 325 G4double energyDeposit = 0.0; 278 G4double energyDeposit = 0.0; 326 G4double finalGlobalTime = aTrack.GetGlobalT 279 G4double finalGlobalTime = aTrack.GetGlobalTime(); 327 G4double finalLocalTime = aTrack.GetLocalTim << 328 if (aTrack.GetTrackStatus() == fStopButAlive 280 if (aTrack.GetTrackStatus() == fStopButAlive ){ 329 // AtRest case 281 // AtRest case 330 finalGlobalTime += fRemainderLifeTime; 282 finalGlobalTime += fRemainderLifeTime; 331 finalLocalTime += fRemainderLifeTime; << 332 energyDeposit += aParticle->GetKineticEner 283 energyDeposit += aParticle->GetKineticEnergy(); 333 if (isPreAssigned) products->Boost( Parent 284 if (isPreAssigned) products->Boost( ParentEnergy, ParentDirection); 334 } else { 285 } else { 335 // PostStep case 286 // PostStep case 336 if (!isExtDecayer) products->Boost( Parent 287 if (!isExtDecayer) products->Boost( ParentEnergy, ParentDirection); 337 } 288 } >> 289 338 // set polarization for daughter particles 290 // set polarization for daughter particles 339 DaughterPolarization(aTrack, products); 291 DaughterPolarization(aTrack, products); 340 292 341 293 342 //add products in fParticleChangeForDecay 294 //add products in fParticleChangeForDecay 343 G4int numberOfSecondaries = products->entrie 295 G4int numberOfSecondaries = products->entries(); 344 fParticleChangeForDecay.SetNumberOfSecondari 296 fParticleChangeForDecay.SetNumberOfSecondaries(numberOfSecondaries); 345 #ifdef G4VERBOSE 297 #ifdef G4VERBOSE 346 if (GetVerboseLevel()>1) { 298 if (GetVerboseLevel()>1) { 347 G4cout << "G4Decay::DoIt : Decay vertex : 299 G4cout << "G4Decay::DoIt : Decay vertex :"; 348 G4cout << " Time: " << finalGlobalTime/ns 300 G4cout << " Time: " << finalGlobalTime/ns << "[ns]"; 349 G4cout << " X:" << (aTrack.GetPosition()). 301 G4cout << " X:" << (aTrack.GetPosition()).x() /cm << "[cm]"; 350 G4cout << " Y:" << (aTrack.GetPosition()). 302 G4cout << " Y:" << (aTrack.GetPosition()).y() /cm << "[cm]"; 351 G4cout << " Z:" << (aTrack.GetPosition()). 303 G4cout << " Z:" << (aTrack.GetPosition()).z() /cm << "[cm]"; 352 G4cout << G4endl; 304 G4cout << G4endl; 353 G4cout << "G4Decay::DoIt : decay products 305 G4cout << "G4Decay::DoIt : decay products in Lab. Frame" << G4endl; 354 products->DumpInfo(); 306 products->DumpInfo(); 355 } 307 } 356 #endif 308 #endif 357 G4int index; 309 G4int index; 358 G4ThreeVector currentPosition; 310 G4ThreeVector currentPosition; 359 const G4TouchableHandle thand = aTrack.GetTo 311 const G4TouchableHandle thand = aTrack.GetTouchableHandle(); 360 for (index=0; index < numberOfSecondaries; i << 312 for (index=0; index < numberOfSecondaries; index++) 361 // get current position of the track << 313 { 362 currentPosition = aTrack.GetPosition(); << 314 // get current position of the track 363 // create a new track object << 315 currentPosition = aTrack.GetPosition(); 364 G4Track* secondary = new G4Track( products << 316 // create a new track object >> 317 G4Track* secondary = new G4Track( products->PopProducts(), 365 finalGlobalTime , 318 finalGlobalTime , 366 currentPosition ); 319 currentPosition ); 367 // switch on good for tracking flag << 320 // switch on good for tracking flag 368 secondary->SetGoodForTrackingFlag(); << 321 secondary->SetGoodForTrackingFlag(); 369 secondary->SetTouchableHandle(thand); << 322 secondary->SetTouchableHandle(thand); 370 // add the secondary track in the List << 323 // add the secondary track in the List 371 fParticleChangeForDecay.AddSecondary(secon << 324 fParticleChangeForDecay.AddSecondary(secondary); 372 } 325 } 373 delete products; 326 delete products; 374 << 327 375 // Kill the parent particle 328 // Kill the parent particle 376 fParticleChangeForDecay.ProposeTrackStatus( 329 fParticleChangeForDecay.ProposeTrackStatus( fStopAndKill ) ; 377 fParticleChangeForDecay.ProposeLocalEnergyDe 330 fParticleChangeForDecay.ProposeLocalEnergyDeposit(energyDeposit); 378 fParticleChangeForDecay.ProposeLocalTime( fi << 331 fParticleChangeForDecay.ProposeGlobalTime( finalGlobalTime ); 379 << 380 // Clear NumberOfInteractionLengthLeft 332 // Clear NumberOfInteractionLengthLeft 381 ClearNumberOfInteractionLengthLeft(); 333 ClearNumberOfInteractionLengthLeft(); 382 << 334 383 return &fParticleChangeForDecay ; 335 return &fParticleChangeForDecay ; 384 } 336 } 385 337 386 void G4Decay::DaughterPolarization(const G4Tra 338 void G4Decay::DaughterPolarization(const G4Track& , G4DecayProducts* ) 387 { 339 { 388 // empty implementation << 389 } 340 } 390 341 391 342 392 343 393 void G4Decay::StartTracking(G4Track*) 344 void G4Decay::StartTracking(G4Track*) 394 { 345 { 395 currentInteractionLength = -1.0; 346 currentInteractionLength = -1.0; 396 ResetNumberOfInteractionLengthLeft(); 347 ResetNumberOfInteractionLengthLeft(); 397 348 398 fRemainderLifeTime = -1.0; 349 fRemainderLifeTime = -1.0; 399 } 350 } 400 351 401 void G4Decay::EndTracking() 352 void G4Decay::EndTracking() 402 { 353 { 403 // Clear NumberOfInteractionLengthLeft 354 // Clear NumberOfInteractionLengthLeft 404 ClearNumberOfInteractionLengthLeft(); 355 ClearNumberOfInteractionLengthLeft(); 405 356 406 currentInteractionLength = -1.0; 357 currentInteractionLength = -1.0; 407 } 358 } 408 359 409 360 410 G4double G4Decay::PostStepGetPhysicalInteracti 361 G4double G4Decay::PostStepGetPhysicalInteractionLength( 411 const G4Track& tr 362 const G4Track& track, 412 G4double previo 363 G4double previousStepSize, 413 G4ForceCondition* 364 G4ForceCondition* condition 414 ) 365 ) 415 { 366 { >> 367 416 // condition is set to "Not Forced" 368 // condition is set to "Not Forced" 417 *condition = NotForced; 369 *condition = NotForced; 418 370 419 // pre-assigned Decay time 371 // pre-assigned Decay time 420 G4double pTime = track.GetDynamicParticle()- 372 G4double pTime = track.GetDynamicParticle()->GetPreAssignedDecayProperTime(); 421 G4double aLife = track.GetDynamicParticle()- 373 G4double aLife = track.GetDynamicParticle()->GetDefinition()->GetPDGLifeTime(); 422 374 423 if (pTime < 0.) { 375 if (pTime < 0.) { 424 // normal case 376 // normal case 425 if ( previousStepSize > 0.0){ 377 if ( previousStepSize > 0.0){ 426 // subtract NumberOfInteractionLengthLef 378 // subtract NumberOfInteractionLengthLeft 427 SubtractNumberOfInteractionLengthLeft(pr 379 SubtractNumberOfInteractionLengthLeft(previousStepSize); 428 if(theNumberOfInteractionLengthLeft<0.){ 380 if(theNumberOfInteractionLengthLeft<0.){ 429 theNumberOfInteractionLengthLeft=perMillion; 381 theNumberOfInteractionLengthLeft=perMillion; 430 } 382 } 431 fRemainderLifeTime = theNumberOfInteract 383 fRemainderLifeTime = theNumberOfInteractionLengthLeft*aLife; 432 } 384 } 433 // get mean free path 385 // get mean free path 434 currentInteractionLength = GetMeanFreePath 386 currentInteractionLength = GetMeanFreePath(track, previousStepSize, condition); 435 387 436 #ifdef G4VERBOSE 388 #ifdef G4VERBOSE 437 if ((currentInteractionLength <=0.0) || (v 389 if ((currentInteractionLength <=0.0) || (verboseLevel>2)){ 438 G4cout << "G4Decay::PostStepGetPhysicalI 390 G4cout << "G4Decay::PostStepGetPhysicalInteractionLength " << G4endl; 439 track.GetDynamicParticle()->DumpInfo(); 391 track.GetDynamicParticle()->DumpInfo(); 440 G4cout << " in Material " << track.GetM 392 G4cout << " in Material " << track.GetMaterial()->GetName() <<G4endl; 441 G4cout << "MeanFreePath = " << currentIn 393 G4cout << "MeanFreePath = " << currentInteractionLength/cm << "[cm]" <<G4endl; 442 } 394 } 443 #endif 395 #endif 444 396 445 G4double value; 397 G4double value; 446 if (currentInteractionLength <DBL_MAX) { 398 if (currentInteractionLength <DBL_MAX) { 447 value = theNumberOfInteractionLengthLeft 399 value = theNumberOfInteractionLengthLeft * currentInteractionLength; 448 //fRemainderLifeTime = theNumberOfIntera << 449 } else { 400 } else { 450 value = DBL_MAX; 401 value = DBL_MAX; 451 } 402 } 452 403 453 return value; 404 return value; 454 405 455 } else { 406 } else { 456 //pre-assigned Decay time case 407 //pre-assigned Decay time case 457 // reminder proper time 408 // reminder proper time 458 fRemainderLifeTime = pTime - track.GetProp 409 fRemainderLifeTime = pTime - track.GetProperTime(); 459 if (fRemainderLifeTime <= 0.0) fRemainderL << 410 if (fRemainderLifeTime <= 0.0) fRemainderLifeTime = DBL_MIN; 460 411 461 G4double rvalue=0.0; 412 G4double rvalue=0.0; 462 // use pre-assigned Decay time to determin 413 // use pre-assigned Decay time to determine PIL 463 if (aLife>0.0) { 414 if (aLife>0.0) { 464 // ordinary particle 415 // ordinary particle 465 rvalue = (fRemainderLifeTime/aLife)*GetM 416 rvalue = (fRemainderLifeTime/aLife)*GetMeanFreePath(track, previousStepSize, condition); 466 } else { 417 } else { 467 // shortlived particle 418 // shortlived particle 468 rvalue = c_light * fRemainderLifeTime; 419 rvalue = c_light * fRemainderLifeTime; 469 // by using normalized kinetic energy (= 420 // by using normalized kinetic energy (= Ekin/mass) 470 G4double aMass = track.GetDynamicParti 421 G4double aMass = track.GetDynamicParticle()->GetMass(); 471 rvalue *= track.GetDynamicParticle()->Get 422 rvalue *= track.GetDynamicParticle()->GetTotalMomentum()/aMass; 472 } 423 } 473 return rvalue; 424 return rvalue; 474 } 425 } 475 } 426 } 476 427 477 G4double G4Decay::AtRestGetPhysicalInteraction 428 G4double G4Decay::AtRestGetPhysicalInteractionLength( 478 const G4Track& tr 429 const G4Track& track, 479 G4ForceCondition* 430 G4ForceCondition* condition 480 ) 431 ) 481 { 432 { 482 // condition is set to "Not Forced" 433 // condition is set to "Not Forced" 483 *condition = NotForced; 434 *condition = NotForced; 484 435 485 G4double pTime = track.GetDynamicParticle()- 436 G4double pTime = track.GetDynamicParticle()->GetPreAssignedDecayProperTime(); 486 if (pTime >= 0.) { 437 if (pTime >= 0.) { 487 fRemainderLifeTime = pTime - track.GetProp 438 fRemainderLifeTime = pTime - track.GetProperTime(); 488 if (fRemainderLifeTime <= 0.0) fRemainderL 439 if (fRemainderLifeTime <= 0.0) fRemainderLifeTime = DBL_MIN; 489 } else { 440 } else { 490 fRemainderLifeTime = 441 fRemainderLifeTime = 491 theNumberOfInteractionLengthLeft * GetMe 442 theNumberOfInteractionLengthLeft * GetMeanLifeTime(track, condition); 492 } 443 } 493 return fRemainderLifeTime; 444 return fRemainderLifeTime; 494 } 445 } 495 446 496 447 497 void G4Decay::SetExtDecayer(G4VExtDecayer* val 448 void G4Decay::SetExtDecayer(G4VExtDecayer* val) 498 { 449 { 499 pExtDecayer = val; 450 pExtDecayer = val; 500 451 501 // set Process Sub Type 452 // set Process Sub Type 502 if ( pExtDecayer !=0 ) { 453 if ( pExtDecayer !=0 ) { 503 SetProcessSubType(static_cast<int>(DECAY_E 454 SetProcessSubType(static_cast<int>(DECAY_External)); 504 } 455 } 505 } << 506 << 507 G4VParticleChange* G4Decay::PostStepDoIt( << 508 const G4Track& aTrack, << 509 const G4Step& aStep << 510 ) << 511 { << 512 if ( (aTrack.GetTrackStatus() == fStopButAli << 513 (aTrack.GetTrackStatus() == fStopAndKil << 514 fParticleChangeForDecay.Initialize(aTrack) << 515 return &fParticleChangeForDecay; << 516 } else { << 517 return DecayIt(aTrack, aStep); << 518 } << 519 } << 520 << 521 void G4Decay::ProcessDescription(std::ostream& << 522 { << 523 outFile << GetProcessName() << ": Decay of p << 524 << "kinematics of daughters are dertermine << 525 << " or by PreAssignedDecayProducts\ << 526 } 456 } 527 457