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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 // 28 // 29 // GEANT4 Class file 29 // GEANT4 Class file 30 // 30 // 31 // 31 // 32 // File name: G4PhotoElectricAngularGenera 32 // File name: G4PhotoElectricAngularGeneratorSauterGavrila 33 // 33 // 34 // Creation date: 10 May 2004 34 // Creation date: 10 May 2004 35 // 35 // 36 // Modifications: 36 // Modifications: 37 // 10 May 2003 P. Rodrigues First imple 37 // 10 May 2003 P. Rodrigues First implementation acording with new design 38 // 38 // 39 // Class Description: 39 // Class Description: 40 // 40 // 41 // Concrete class for PhotoElectric Electron A 41 // Concrete class for PhotoElectric Electron Angular Distribution Generation 42 // This model is a re-implementation of the Ph 42 // This model is a re-implementation of the Photolectric angular distribution 43 // developed my M. Maire for the Standard EM P 43 // developed my M. Maire for the Standard EM Physics G4PhotoElectricEffect 44 // 44 // 45 // Class Description: End 45 // Class Description: End 46 // 46 // 47 // ------------------------------------------- 47 // ------------------------------------------------------------------- 48 // 48 // 49 49 50 #include "G4PhotoElectricAngularGeneratorSaute 50 #include "G4PhotoElectricAngularGeneratorSauterGavrila.hh" 51 #include "G4PhysicalConstants.hh" 51 #include "G4PhysicalConstants.hh" 52 #include "Randomize.hh" 52 #include "Randomize.hh" 53 53 54 // ------------------------------------------- 54 // ------------------------------------------------------------------- 55 G4PhotoElectricAngularGeneratorSauterGavrila:: 55 G4PhotoElectricAngularGeneratorSauterGavrila::G4PhotoElectricAngularGeneratorSauterGavrila(): 56 G4VEmAngularDistribution("AngularGenSauterGa 56 G4VEmAngularDistribution("AngularGenSauterGavrilaLowE") 57 {} 57 {} 58 58 59 // ------------------------------------------- 59 // ------------------------------------------------------------------- 60 60 61 G4PhotoElectricAngularGeneratorSauterGavrila:: 61 G4PhotoElectricAngularGeneratorSauterGavrila::~G4PhotoElectricAngularGeneratorSauterGavrila() 62 {} 62 {} 63 63 64 // ------------------------------------------- 64 // ------------------------------------------------------------------- 65 65 66 G4ThreeVector& 66 G4ThreeVector& 67 G4PhotoElectricAngularGeneratorSauterGavrila:: 67 G4PhotoElectricAngularGeneratorSauterGavrila::SampleDirection( 68 const G4DynamicPartic 68 const G4DynamicParticle* dp, 69 G4double, G4int, cons 69 G4double, G4int, const G4Material*) 70 { 70 { 71 71 72 // Compute Theta distribution of the emitted 72 // Compute Theta distribution of the emitted electron, with respect to the 73 // incident Gamma. 73 // incident Gamma. 74 // The Sauter-Gavrila distribution for the K 74 // The Sauter-Gavrila distribution for the K-shell is used. 75 G4double costeta = 1.; 75 G4double costeta = 1.; 76 G4double Phi = twopi * G4UniformRand(); 76 G4double Phi = twopi * G4UniformRand(); 77 G4double cosphi = std::cos(Phi); 77 G4double cosphi = std::cos(Phi); 78 G4double sinphi = std::sin(Phi); 78 G4double sinphi = std::sin(Phi); 79 G4double sinteta = 0; 79 G4double sinteta = 0; 80 G4double gamma = 1. + dp->GetKineticEnergy 80 G4double gamma = 1. + dp->GetKineticEnergy()/electron_mass_c2; 81 81 82 if (gamma > 5.) { 82 if (gamma > 5.) { 83 fLocalDirection = dp->GetMomentumDirection 83 fLocalDirection = dp->GetMomentumDirection(); 84 return fLocalDirection; 84 return fLocalDirection; 85 // Bugzilla 1120 85 // Bugzilla 1120 86 // SI on 05/09/2010 as suggested by JG 04/ 86 // SI on 05/09/2010 as suggested by JG 04/09/10 87 } 87 } 88 88 89 G4double beta = std::sqrt((gamma - 1)*(gamm 89 G4double beta = std::sqrt((gamma - 1)*(gamma + 1))/gamma; 90 G4double b = 0.5*gamma*(gamma - 1)*(gamm 90 G4double b = 0.5*gamma*(gamma - 1)*(gamma - 2); 91 91 92 G4double rndm,term,greject,grejsup; 92 G4double rndm,term,greject,grejsup; 93 if (gamma < 2.) grejsup = gamma*gamma*(1.+b- 93 if (gamma < 2.) grejsup = gamma*gamma*(1.+b-beta*b); 94 else grejsup = gamma*gamma*(1.+b+ 94 else grejsup = gamma*gamma*(1.+b+beta*b); 95 95 96 do { rndm = 1.-2*G4UniformRand(); 96 do { rndm = 1.-2*G4UniformRand(); 97 costeta = (rndm+beta)/(rndm*beta+1.); 97 costeta = (rndm+beta)/(rndm*beta+1.); 98 term = 1.-beta*costeta; 98 term = 1.-beta*costeta; 99 greject = (1.-costeta*costeta)*(1.+b*te 99 greject = (1.-costeta*costeta)*(1.+b*term)/(term*term); 100 } while(greject < G4UniformRand()*grejsup); 100 } while(greject < G4UniformRand()*grejsup); 101 101 102 sinteta = std::sqrt((1 - costeta)*(1 + coste 102 sinteta = std::sqrt((1 - costeta)*(1 + costeta)); 103 fLocalDirection.set(sinteta*cosphi, sinteta* 103 fLocalDirection.set(sinteta*cosphi, sinteta*sinphi, costeta); 104 fLocalDirection.rotateUz(dp->GetMomentumDire 104 fLocalDirection.rotateUz(dp->GetMomentumDirection()); 105 return fLocalDirection; 105 return fLocalDirection; 106 } 106 } 107 107 108 // ------------------------------------------- 108 // ------------------------------------------------------------------- 109 109 110 void G4PhotoElectricAngularGeneratorSauterGavr 110 void G4PhotoElectricAngularGeneratorSauterGavrila::PrintGeneratorInformation() const 111 { 111 { 112 G4cout << "\n" << G4endl; 112 G4cout << "\n" << G4endl; 113 G4cout << "" << G4endl; 113 G4cout << "" << G4endl; 114 G4cout << "Re-implementation of the photolec 114 G4cout << "Re-implementation of the photolectric angular distribution" << G4endl; 115 G4cout << "developed my M. Maire for the Sta 115 G4cout << "developed my M. Maire for the Standard EM Physics G4PhotoElectricEffect" << G4endl; 116 G4cout << "It computes the theta distributio 116 G4cout << "It computes the theta distribution of the emitted electron, with respect to the" << G4endl; 117 G4cout << "incident Gamma, using the Sauter- 117 G4cout << "incident Gamma, using the Sauter-Gavrila distribution for the K-shell\n" << G4endl; 118 } 118 } 119 119