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Arce, June-2014 Conversion neutron_hp to 27 // P. Arce, June-2014 Conversion neutron_hp to particle_hp 28 // 28 // 29 #ifndef G4ParticleHPParticleYield_h 29 #ifndef G4ParticleHPParticleYield_h 30 #define G4ParticleHPParticleYield_h 1 30 #define G4ParticleHPParticleYield_h 1 31 31 32 #include "G4ParticleHPList.hh" 32 #include "G4ParticleHPList.hh" 33 #include "G4ParticleHPPolynomExpansion.hh" 33 #include "G4ParticleHPPolynomExpansion.hh" 34 #include "G4ParticleHPVector.hh" 34 #include "G4ParticleHPVector.hh" 35 #include "globals.hh" 35 #include "globals.hh" 36 36 37 #include <CLHEP/Units/SystemOfUnits.h> 37 #include <CLHEP/Units/SystemOfUnits.h> 38 38 39 class G4ParticleHPParticleYield 39 class G4ParticleHPParticleYield 40 { 40 { 41 public: 41 public: 42 << 43 G4ParticleHPParticleYield() 42 G4ParticleHPParticleYield() 44 { 43 { 45 simpleMean = true; 44 simpleMean = true; 46 spontPrompt = true; 45 spontPrompt = true; 47 hasPromptData = false; 46 hasPromptData = false; 48 hasDelayedData = false; 47 hasDelayedData = false; 49 48 50 targetMass = 0.0; 49 targetMass = 0.0; 51 theSpontPrompt = 0.0; 50 theSpontPrompt = 0.0; 52 spontDelayed = true; 51 spontDelayed = true; 53 theSpontDelayed = 0.0; 52 theSpontDelayed = 0.0; 54 } 53 } 55 << 56 ~G4ParticleHPParticleYield() = default; 54 ~G4ParticleHPParticleYield() = default; 57 55 58 inline G4double GetTargetMass() const { re << 56 G4double GetTargetMass() { return targetMass; } 59 57 60 inline void InitMean(std::istream& aDataFi << 58 void InitMean(std::istream& aDataFile) 61 { 59 { 62 G4int iflag; 60 G4int iflag; 63 aDataFile >> targetMass >> iflag; 61 aDataFile >> targetMass >> iflag; 64 if (iflag == 1) simpleMean = false; 62 if (iflag == 1) simpleMean = false; 65 if (simpleMean) { 63 if (simpleMean) { 66 theSimpleMean.Init(aDataFile, CLHEP::e 64 theSimpleMean.Init(aDataFile, CLHEP::eV); 67 } 65 } 68 else { 66 else { 69 theMean.Init(aDataFile); 67 theMean.Init(aDataFile); 70 } 68 } 71 } 69 } 72 70 73 inline void InitPrompt(std::istream& aData << 71 void InitPrompt(std::istream& aDataFile) 74 { 72 { 75 hasPromptData = true; 73 hasPromptData = true; 76 G4int iflag; 74 G4int iflag; 77 aDataFile >> targetMass >> iflag; 75 aDataFile >> targetMass >> iflag; 78 if (iflag == 2) spontPrompt = false; 76 if (iflag == 2) spontPrompt = false; 79 if (spontPrompt) { 77 if (spontPrompt) { 80 aDataFile >> theSpontPrompt; 78 aDataFile >> theSpontPrompt; 81 } 79 } 82 else { 80 else { 83 thePrompt.Init(aDataFile, CLHEP::eV); 81 thePrompt.Init(aDataFile, CLHEP::eV); 84 } 82 } 85 } 83 } 86 84 87 inline void InitDelayed(std::istream& aDat << 85 void InitDelayed(std::istream& aDataFile) 88 { 86 { 89 hasDelayedData = true; 87 hasDelayedData = true; 90 G4int iflag; 88 G4int iflag; 91 aDataFile >> targetMass >> iflag; 89 aDataFile >> targetMass >> iflag; 92 thePrecursorDecayConstants.Init(aDataFil 90 thePrecursorDecayConstants.Init(aDataFile, 1. / CLHEP::s); // s is the CLHEP unit second 93 if (iflag == 2) spontDelayed = false; 91 if (iflag == 2) spontDelayed = false; 94 if (spontDelayed) { 92 if (spontDelayed) { 95 aDataFile >> theSpontDelayed; 93 aDataFile >> theSpontDelayed; 96 } 94 } 97 else { 95 else { 98 theDelayed.Init(aDataFile, CLHEP::eV); 96 theDelayed.Init(aDataFile, CLHEP::eV); 99 } 97 } 100 } 98 } 101 99 102 inline G4double GetMean(G4double anEnergy) << 100 G4double GetMean(G4double anEnergy) 103 { 101 { 104 if (simpleMean) { 102 if (simpleMean) { 105 return theSimpleMean.GetY(anEnergy); 103 return theSimpleMean.GetY(anEnergy); 106 } 104 } 107 return theMean.GetValue(anEnergy); 105 return theMean.GetValue(anEnergy); 108 } 106 } 109 107 110 inline G4double GetPrompt(G4double anEnerg << 108 G4double GetPrompt(G4double anEnergy) 111 { 109 { 112 if (!hasPromptData) return 0; 110 if (!hasPromptData) return 0; 113 if (spontPrompt) { 111 if (spontPrompt) { 114 return theSpontPrompt; 112 return theSpontPrompt; 115 } 113 } 116 return thePrompt.GetY(anEnergy); 114 return thePrompt.GetY(anEnergy); 117 } 115 } 118 116 119 inline G4double GetDelayed(G4double anEner << 117 G4double GetDelayed(G4double anEnergy) 120 { 118 { 121 if (!hasDelayedData) return 0; 119 if (!hasDelayedData) return 0; 122 if (spontDelayed) { 120 if (spontDelayed) { 123 return theSpontDelayed; 121 return theSpontDelayed; 124 } 122 } 125 return theDelayed.GetY(anEnergy); 123 return theDelayed.GetY(anEnergy); 126 } 124 } 127 125 128 inline G4double GetDecayConstant(G4int i) << 126 inline G4double GetDecayConstant(G4int i) { return thePrecursorDecayConstants.GetValue(i); } 129 { << 130 return thePrecursorDecayConstants.GetVal << 131 } << 132 127 133 private: 128 private: 134 << 135 G4double targetMass; 129 G4double targetMass; 136 // total mean 130 // total mean 137 G4bool simpleMean; 131 G4bool simpleMean; 138 G4ParticleHPPolynomExpansion theMean; 132 G4ParticleHPPolynomExpansion theMean; 139 G4ParticleHPVector theSimpleMean; 133 G4ParticleHPVector theSimpleMean; 140 134 141 // Prompt neutrons 135 // Prompt neutrons 142 G4bool hasPromptData; 136 G4bool hasPromptData; 143 G4bool spontPrompt; 137 G4bool spontPrompt; 144 G4ParticleHPVector thePrompt; 138 G4ParticleHPVector thePrompt; 145 G4double theSpontPrompt; 139 G4double theSpontPrompt; 146 140 147 // delayed neutrons 141 // delayed neutrons 148 G4bool hasDelayedData; 142 G4bool hasDelayedData; 149 G4bool spontDelayed; 143 G4bool spontDelayed; 150 G4ParticleHPList thePrecursorDecayConstant 144 G4ParticleHPList thePrecursorDecayConstants; 151 G4ParticleHPVector theDelayed; 145 G4ParticleHPVector theDelayed; 152 G4double theSpontDelayed; 146 G4double theSpontDelayed; 153 }; 147 }; 154 << 155 #endif 148 #endif 156 149