Geant4 Cross Reference |
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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 // GEANT 4 class header file 27 // GEANT 4 class header file 28 // 28 // 29 // History: 29 // History: 30 // 17 August 2004 P. Gumplinger, T. MacP 30 // 17 August 2004 P. Gumplinger, T. MacPhail 31 // 11 April 2008 Kamil Sedlak (PSI), To << 32 // ------------------------------------------- 31 // ------------------------------------------------------------ 33 // 32 // 34 #include "G4DecayWithSpin.hh" 33 #include "G4DecayWithSpin.hh" 35 34 36 #include "G4Step.hh" 35 #include "G4Step.hh" 37 #include "G4Track.hh" 36 #include "G4Track.hh" 38 #include "G4DecayTable.hh" 37 #include "G4DecayTable.hh" 39 #include "G4MuonDecayChannelWithSpin.hh" 38 #include "G4MuonDecayChannelWithSpin.hh" 40 39 41 #include "G4PhysicalConstants.hh" << 42 #include "G4SystemOfUnits.hh" << 43 #include "G4Vector3D.hh" 40 #include "G4Vector3D.hh" 44 41 45 #include "G4TransportationManager.hh" 42 #include "G4TransportationManager.hh" 46 #include "G4PropagatorInField.hh" 43 #include "G4PropagatorInField.hh" 47 #include "G4FieldManager.hh" 44 #include "G4FieldManager.hh" 48 #include "G4Field.hh" 45 #include "G4Field.hh" 49 46 50 #include "G4Transform3D.hh" 47 #include "G4Transform3D.hh" 51 48 52 G4DecayWithSpin::G4DecayWithSpin(const G4Strin << 49 G4DecayWithSpin::G4DecayWithSpin(const G4String& processName):G4Decay(processName){} 53 { << 54 // set Process Sub Type << 55 SetProcessSubType(static_cast<int>(DECAY_Wit << 56 << 57 } << 58 50 59 G4DecayWithSpin::~G4DecayWithSpin(){} 51 G4DecayWithSpin::~G4DecayWithSpin(){} 60 52 61 G4VParticleChange* G4DecayWithSpin::PostStepDo << 53 G4VParticleChange* G4DecayWithSpin::DecayIt(const G4Track& aTrack, const G4Step& aStep) 62 { 54 { 63 if ( (aTrack.GetTrackStatus() == fStopButAli << 64 (aTrack.GetTrackStatus() == fStopAndKil << 65 fParticleChangeForDecay.Initialize(aTrack) << 66 return &fParticleChangeForDecay; << 67 } << 68 55 69 // get particle 56 // get particle 70 const G4DynamicParticle* aParticle = aTrack. 57 const G4DynamicParticle* aParticle = aTrack.GetDynamicParticle(); 71 const G4ParticleDefinition* aParticleDef = a << 58 G4ParticleDefinition* aParticleDef = aParticle->GetDefinition(); 72 59 73 // get parent_polarization 60 // get parent_polarization 74 G4ThreeVector parent_polarization = aParticl 61 G4ThreeVector parent_polarization = aParticle->GetPolarization(); 75 62 76 if(parent_polarization == G4ThreeVector(0,0, << 63 if(parent_polarization == G4ThreeVector(0,0,0)) >> 64 { 77 // Generate random polarization direction 65 // Generate random polarization direction 78 G4double cost = 1. - 2.*G4UniformRand(); << 79 G4double sint = std::sqrt((1.-cost)*(1.+co << 80 << 81 G4double phi = twopi*G4UniformRand(); << 82 G4double sinp = std::sin(phi); << 83 G4double cosp = std::cos(phi); << 84 << 85 G4double px = sint*cosp; << 86 G4double py = sint*sinp; << 87 G4double pz = cost; << 88 66 89 parent_polarization.setX(px); << 90 parent_polarization.setY(py); << 91 parent_polarization.setZ(pz); << 92 } << 93 << 94 // decay table << 95 G4DecayTable *decaytable = aParticleDef->Get << 96 if (decaytable != nullptr) { << 97 for (G4int ip=0; ip<decaytable->entries(); << 98 decaytable->GetDecayChannel(ip)->SetPola << 99 } << 100 } << 101 << 102 G4ParticleChangeForDecay* pParticleChangeFor << 103 pParticleChangeForDecay = (G4ParticleChangeF << 104 pParticleChangeForDecay->ProposePolarization << 105 << 106 return pParticleChangeForDecay; << 107 } << 108 << 109 G4VParticleChange* G4DecayWithSpin::AtRestDoIt << 110 { << 111 << 112 // get particle << 113 const G4DynamicParticle* aParticle = aTrack. << 114 const G4ParticleDefinition* aParticleDef = a << 115 << 116 // get parent_polarization << 117 G4ThreeVector parent_polarization = aParticl << 118 << 119 if(parent_polarization == G4ThreeVector(0,0, << 120 // Generate random polarization direction << 121 G4double cost = 1. - 2.*G4UniformRand(); 67 G4double cost = 1. - 2.*G4UniformRand(); 122 G4double sint = std::sqrt((1.-cost)*(1.+co 68 G4double sint = std::sqrt((1.-cost)*(1.+cost)); 123 69 124 G4double phi = twopi*G4UniformRand(); 70 G4double phi = twopi*G4UniformRand(); 125 G4double sinp = std::sin(phi); 71 G4double sinp = std::sin(phi); 126 G4double cosp = std::cos(phi); 72 G4double cosp = std::cos(phi); 127 73 128 G4double px = sint*cosp; 74 G4double px = sint*cosp; 129 G4double py = sint*sinp; 75 G4double py = sint*sinp; 130 G4double pz = cost; 76 G4double pz = cost; 131 77 132 parent_polarization.setX(px); 78 parent_polarization.setX(px); 133 parent_polarization.setY(py); 79 parent_polarization.setY(py); 134 parent_polarization.setZ(pz); 80 parent_polarization.setZ(pz); 135 81 136 }else{ 82 }else{ 137 83 138 G4FieldManager* fieldMgr = aStep.GetTrack( 84 G4FieldManager* fieldMgr = aStep.GetTrack()->GetVolume()-> 139 GetLogica 85 GetLogicalVolume()->GetFieldManager(); 140 if (fieldMgr == nullptr) { << 86 >> 87 if (!fieldMgr) { 141 G4TransportationManager *transportMgr = 88 G4TransportationManager *transportMgr = 142 G4TransportationManag 89 G4TransportationManager::GetTransportationManager(); 143 G4PropagatorInField* fFieldPropagator = 90 G4PropagatorInField* fFieldPropagator = 144 transp 91 transportMgr->GetPropagatorInField(); 145 if (fFieldPropagator) fieldMgr = 92 if (fFieldPropagator) fieldMgr = 146 fFieldPropag 93 fFieldPropagator->GetCurrentFieldManager(); 147 } 94 } 148 95 149 const G4Field* field = nullptr; << 96 const G4Field* field = NULL; 150 if (fieldMgr != nullptr) field = fieldMgr- << 97 if(fieldMgr)field = fieldMgr->GetDetectorField(); >> 98 >> 99 if (field && !(fieldMgr->DoesFieldChangeEnergy())) { 151 100 152 if ( field != nullptr ) { << 153 G4double point[4]; 101 G4double point[4]; 154 point[0] = (aStep.GetPostStepPoint()->G 102 point[0] = (aStep.GetPostStepPoint()->GetPosition())[0]; 155 point[1] = (aStep.GetPostStepPoint()->G 103 point[1] = (aStep.GetPostStepPoint()->GetPosition())[1]; 156 point[2] = (aStep.GetPostStepPoint()->G 104 point[2] = (aStep.GetPostStepPoint()->GetPosition())[2]; 157 point[3] = aTrack.GetGlobalTime(); 105 point[3] = aTrack.GetGlobalTime(); 158 106 159 G4double fieldValue[6] ={ 0., 0., 0., 0 << 107 G4double fieldValue[3]; 160 field -> GetFieldValue(point,fieldValue 108 field -> GetFieldValue(point,fieldValue); >> 109 161 G4ThreeVector B(fieldValue[0],fieldValu 110 G4ThreeVector B(fieldValue[0],fieldValue[1],fieldValue[2]); 162 111 163 // Call the spin precession only for no << 112 parent_polarization = Spin_Precession(aStep,B,fRemainderLifeTime); 164 if (B.mag2() > 0.) parent_polarization << 165 Spin_Precessi << 166 113 167 } 114 } 168 } 115 } 169 116 170 // decay table 117 // decay table 171 G4DecayTable *decaytable = aParticleDef->Get 118 G4DecayTable *decaytable = aParticleDef->GetDecayTable(); 172 if ( decaytable != nullptr) { << 119 173 for (G4int ip=0; ip<decaytable->entries(); << 120 if (decaytable) { 174 decaytable->GetDecayChannel(ip)->SetPola << 121 G4MuonDecayChannelWithSpin *decaychannel; 175 } << 122 decaychannel = (G4MuonDecayChannelWithSpin*)decaytable->SelectADecayChannel(); 176 } << 123 if (decaychannel) decaychannel->SetPolarization(parent_polarization); >> 124 } 177 125 178 G4ParticleChangeForDecay* pParticleChangeFor 126 G4ParticleChangeForDecay* pParticleChangeForDecay; >> 127 179 pParticleChangeForDecay = (G4ParticleChangeF 128 pParticleChangeForDecay = (G4ParticleChangeForDecay*)G4Decay::DecayIt(aTrack,aStep); >> 129 180 pParticleChangeForDecay->ProposePolarization 130 pParticleChangeForDecay->ProposePolarization(parent_polarization); 181 131 182 return pParticleChangeForDecay; 132 return pParticleChangeForDecay; 183 133 184 } 134 } 185 135 186 G4ThreeVector G4DecayWithSpin::Spin_Precession 136 G4ThreeVector G4DecayWithSpin::Spin_Precession( const G4Step& aStep, 187 G4Thre 137 G4ThreeVector B, G4double deltatime ) 188 { 138 { 189 G4double Bnorm = std::sqrt(sqr(B[0]) + sqr( 139 G4double Bnorm = std::sqrt(sqr(B[0]) + sqr(B[1]) +sqr(B[2]) ); 190 140 191 G4double q = aStep.GetTrack()->GetDefinition 141 G4double q = aStep.GetTrack()->GetDefinition()->GetPDGCharge(); 192 G4double a = 1.165922e-3; 142 G4double a = 1.165922e-3; 193 G4double s_omega = 8.5062e+7*rad/(s*kilogaus 143 G4double s_omega = 8.5062e+7*rad/(s*kilogauss); 194 144 195 G4double omega = -(q*s_omega)*(1.+a) * Bnorm 145 G4double omega = -(q*s_omega)*(1.+a) * Bnorm; 196 146 197 G4double rotationangle = deltatime * omega; 147 G4double rotationangle = deltatime * omega; 198 148 199 G4Transform3D SpinRotation = G4Rotate3D(rota 149 G4Transform3D SpinRotation = G4Rotate3D(rotationangle,B.unit()); 200 150 201 G4Vector3D Spin = aStep.GetTrack() -> GetPol 151 G4Vector3D Spin = aStep.GetTrack() -> GetPolarization(); 202 152 203 G4Vector3D newSpin = SpinRotation * Spin; 153 G4Vector3D newSpin = SpinRotation * Spin; 204 154 205 #ifdef G4VERBOSE 155 #ifdef G4VERBOSE 206 if (GetVerboseLevel()>2) { << 156 207 G4double normspin = std::sqrt(Spin*Spin); << 157 // G4double normspin = std::sqrt(Spin*Spin); 208 G4double normnewspin = std::sqrt(newSpin*n << 158 // G4double normnewspin = std::sqrt(newSpin*newSpin); 209 //G4double cosalpha = Spin*newSpin/normspi << 159 // G4double cosalpha = Spin*newSpin/normspin/normnewspin; 210 //G4double alpha = std::acos(cosalpha); << 160 // G4double alpha = std::acos(cosalpha); 211 << 161 212 G4cout << "AT REST::: PARAMETERS " << G4en << 162 // G4cout<< "AT REST::: PARAMETERS\n" 213 G4cout << "Initial spin : " << Spin << G << 163 // << "Initial spin : " << Spin <<"\n" 214 G4cout << "Delta time : " << deltatime << 164 // << "Delta time : " << deltatime <<"\n" 215 G4cout << "Rotation angle: " << rotationan << 165 // << "Rotation angle: " << rotationangle/rad <<"\n" 216 G4cout << "New spin : " << newSpin < << 166 // << "New spin : " << newSpin <<"\n" 217 G4cout << "Checked norms : " << normspin < << 167 // << "Checked norms : " << normspin <<" " << normnewspin <<" \n" 218 } << 168 // << G4endl; >> 169 219 #endif 170 #endif 220 171 221 return newSpin; 172 return newSpin; 222 173 223 } << 224 << 225 void G4DecayWithSpin::ProcessDescription(std:: << 226 { << 227 outFile << GetProcessName() << 228 << ": Decay of particles considering paren << 229 << "kinematics of daughters are dertermine << 230 } 174 } 231 175