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 // 27 // 28 // Hadronic Process: Nuclear De-excitations 28 // Hadronic Process: Nuclear De-excitations 29 // by V. Lara 29 // by V. Lara 30 30 31 #include "G4StatMFMacroBiNucleon.hh" 31 #include "G4StatMFMacroBiNucleon.hh" 32 #include "G4StatMFParameters.hh" 32 #include "G4StatMFParameters.hh" 33 #include "G4PhysicalConstants.hh" 33 #include "G4PhysicalConstants.hh" 34 #include "G4SystemOfUnits.hh" 34 #include "G4SystemOfUnits.hh" 35 #include "G4Log.hh" 35 #include "G4Log.hh" 36 #include "G4Exp.hh" 36 #include "G4Exp.hh" 37 #include "G4Pow.hh" 37 #include "G4Pow.hh" 38 38 39 // Operators 39 // Operators 40 40 41 static const G4double degeneracy = 3.0; 41 static const G4double degeneracy = 3.0; 42 42 43 G4StatMFMacroBiNucleon & G4StatMFMacroBiNucleo 43 G4StatMFMacroBiNucleon & G4StatMFMacroBiNucleon:: 44 operator=(const G4StatMFMacroBiNucleon & ) 44 operator=(const G4StatMFMacroBiNucleon & ) 45 { 45 { 46 throw G4HadronicException(__FILE__, __LINE 46 throw G4HadronicException(__FILE__, __LINE__, "G4StatMFMacroBiNucleon::operator= meant to not be accessible"); 47 return *this; 47 return *this; 48 } 48 } 49 49 50 G4bool G4StatMFMacroBiNucleon::operator==(cons 50 G4bool G4StatMFMacroBiNucleon::operator==(const G4StatMFMacroBiNucleon & ) const 51 { 51 { 52 throw G4HadronicException(__FILE__, __LINE 52 throw G4HadronicException(__FILE__, __LINE__, "G4StatMFMacroBiNucleon::operator== meant to not be accessible"); 53 return false; 53 return false; 54 } 54 } 55 55 56 56 57 G4bool G4StatMFMacroBiNucleon::operator!=(cons 57 G4bool G4StatMFMacroBiNucleon::operator!=(const G4StatMFMacroBiNucleon & ) const 58 { 58 { 59 throw G4HadronicException(__FILE__, __LINE 59 throw G4HadronicException(__FILE__, __LINE__, "G4StatMFMacroBiNucleon::operator!= meant to not be accessible"); 60 return true; 60 return true; 61 } 61 } 62 62 63 G4double G4StatMFMacroBiNucleon::CalcMeanMulti 63 G4double G4StatMFMacroBiNucleon::CalcMeanMultiplicity(const G4double FreeVol, 64 const G4double mu, 64 const G4double mu, 65 const G4double nu, 65 const G4double nu, 66 const G4double T) 66 const G4double T) 67 { 67 { 68 G4double ThermalWaveLenght = 16.15*fermi/std 68 G4double ThermalWaveLenght = 16.15*fermi/std::sqrt(T); 69 G4double lambda3 = ThermalWaveLenght*Thermal 69 G4double lambda3 = ThermalWaveLenght*ThermalWaveLenght*ThermalWaveLenght; 70 70 71 const G4double BindingE = G4NucleiProperties 71 const G4double BindingE = G4NucleiProperties::GetBindingEnergy(theA,1); 72 //old value was 2.796*MeV 72 //old value was 2.796*MeV 73 G4double exponent = (BindingE + theA*(mu+nu* 73 G4double exponent = (BindingE + theA*(mu+nu*theZARatio) - 74 G4StatMFParameters::GetCoulomb()*th 74 G4StatMFParameters::GetCoulomb()*theZARatio*theZARatio*theA 75 *G4Pow::GetInstance()->Z23(theA))/T 75 *G4Pow::GetInstance()->Z23(theA))/T; 76 76 77 // To avoid numerical problems 77 // To avoid numerical problems 78 if (exponent < -300.0) exponent = -300.0; 78 if (exponent < -300.0) exponent = -300.0; 79 else if (exponent > 300.0) exponent = 300.0; 79 else if (exponent > 300.0) exponent = 300.0; 80 80 81 _MeanMultiplicity = (degeneracy*FreeVol*theA 81 _MeanMultiplicity = (degeneracy*FreeVol*theA*std::sqrt((G4double)theA)/lambda3)* 82 G4Exp(exponent); 82 G4Exp(exponent); 83 83 84 return _MeanMultiplicity; 84 return _MeanMultiplicity; 85 } 85 } 86 86 87 G4double G4StatMFMacroBiNucleon::CalcEnergy(co 87 G4double G4StatMFMacroBiNucleon::CalcEnergy(const G4double T) 88 { 88 { 89 _Energy = -G4NucleiProperties::GetBindingEn 89 _Energy = -G4NucleiProperties::GetBindingEnergy(theA,1) + 90 G4StatMFParameters::GetCoulomb() * theZARa 90 G4StatMFParameters::GetCoulomb() * theZARatio * theZARatio 91 * theA*G4Pow::GetInstance()->Z23(theA) + 1 91 * theA*G4Pow::GetInstance()->Z23(theA) + 1.5*T; 92 92 93 return _Energy; 93 return _Energy; 94 } 94 } 95 95 96 G4double G4StatMFMacroBiNucleon::CalcEntropy(c 96 G4double G4StatMFMacroBiNucleon::CalcEntropy(const G4double T, const G4double FreeVol) 97 { 97 { 98 G4double Entropy = 0.0; 98 G4double Entropy = 0.0; 99 if (_MeanMultiplicity > 0.0) { 99 if (_MeanMultiplicity > 0.0) { 100 G4double ThermalWaveLenght = 16.15*fermi/s 100 G4double ThermalWaveLenght = 16.15*fermi/std::sqrt(T); 101 G4double lambda3 = ThermalWaveLenght*Therm 101 G4double lambda3 = ThermalWaveLenght*ThermalWaveLenght*ThermalWaveLenght; 102 // Is this formula correct? 102 // Is this formula correct? 103 Entropy = _MeanMultiplicity*(2.5+G4Log(3.0 103 Entropy = _MeanMultiplicity*(2.5+G4Log(3.0*theA*std::sqrt((G4double)theA)*FreeVol 104 /(lambda3*_MeanMultiplicity))); 104 /(lambda3*_MeanMultiplicity))); 105 } 105 } 106 return Entropy; 106 return Entropy; 107 } 107 } 108 108