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Geant4/processes/hadronic/models/de_excitation/multifragmentation/src/G4StatMFMacroBiNucleon.cc

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Diff markup

Differences between /processes/hadronic/models/de_excitation/multifragmentation/src/G4StatMFMacroBiNucleon.cc (Version 11.3.0) and /processes/hadronic/models/de_excitation/multifragmentation/src/G4StatMFMacroBiNucleon.cc (Version 10.6.p1)


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 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