source: trunk/source/processes/hadronic/models/de_excitation/multifragmentation/src/G4StatMFMacroTriNucleon.cc @ 1340

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27// $Id: G4StatMFMacroTriNucleon.cc,v 1.7 2008/10/24 22:57:24 dennis Exp $
28// GEANT4 tag $Name: geant4-09-03-ref-09 $
29//
30// Hadronic Process: Nuclear De-excitations
31// by V. Lara
32
33#include "G4StatMFMacroTriNucleon.hh"
34
35// Operators
36
37G4StatMFMacroTriNucleon & G4StatMFMacroTriNucleon::
38operator=(const G4StatMFMacroTriNucleon & )
39{
40    throw G4HadronicException(__FILE__, __LINE__, "G4StatMFMacroTriNucleon::operator= meant to not be accessable");
41    return *this;
42}
43
44
45G4bool G4StatMFMacroTriNucleon::operator==(const G4StatMFMacroTriNucleon & ) const
46{
47    throw G4HadronicException(__FILE__, __LINE__, "G4StatMFMacroTriNucleon::operator== meant to not be accessable");
48    return false;
49}
50 
51
52G4bool G4StatMFMacroTriNucleon::operator!=(const G4StatMFMacroTriNucleon & ) const
53{
54    throw G4HadronicException(__FILE__, __LINE__, "G4StatMFMacroTriNucleon::operator!= meant to not be accessable");
55    return true;
56}
57
58
59
60G4double G4StatMFMacroTriNucleon::CalcMeanMultiplicity(const G4double FreeVol, const G4double mu, 
61                                                       const G4double nu, const G4double T)
62{
63    const G4double ThermalWaveLenght = 16.15*fermi/std::sqrt(T);
64       
65    const G4double lambda3 = ThermalWaveLenght*ThermalWaveLenght*ThermalWaveLenght;
66       
67    const G4double degeneracy = 2.0+2.0;  // H3 + He3
68       
69    const G4double Coulomb = (3./5.)*(elm_coupling/G4StatMFParameters::Getr0())*
70        (1.0 - 1.0/std::pow(1.0+G4StatMFParameters::GetKappaCoulomb(),1./3.));
71
72    const G4double BindingE = G4NucleiProperties::GetBindingEnergy(theA,1); // old value was 9.224*MeV
73//                                                      + G4NucleiProperties::GetBindingEnergy(theA,2);
74
75    G4double exponent = (BindingE+ theA*(mu+nu*theZARatio) - 
76                         Coulomb*theZARatio*theZARatio*std::pow(static_cast<G4double>(theA),5./3.))/T;
77    if (exponent > 700.0) exponent = 700.0;
78
79    _MeanMultiplicity = (degeneracy*FreeVol*static_cast<G4double>(theA)*
80                         std::sqrt(static_cast<G4double>(theA))/lambda3)*
81        std::exp(exponent);
82                         
83    return _MeanMultiplicity;
84}
85
86
87G4double G4StatMFMacroTriNucleon::CalcEnergy(const G4double T)
88{
89    const G4double Coulomb = (3./5.)*(elm_coupling/G4StatMFParameters::Getr0())*
90        (1.0 - 1.0/std::pow(1.0+G4StatMFParameters::GetKappaCoulomb(),1./3.));
91                                                                       
92    return _Energy  = -G4NucleiProperties::GetBindingEnergy(theA,1) + 
93        Coulomb * theZARatio * theZARatio * std::pow(static_cast<G4double>(theA),5./3.) +
94        (3./2.) * T;
95                                                       
96}
97
98
99G4double G4StatMFMacroTriNucleon::CalcEntropy(const G4double T, const G4double FreeVol)
100{
101    const G4double ThermalWaveLenght = 16.15*fermi/std::sqrt(T);
102    const G4double lambda3 = ThermalWaveLenght*ThermalWaveLenght*ThermalWaveLenght;
103
104    G4double Entropy = 0.0;
105    if (_MeanMultiplicity > 0.0)
106        Entropy = _MeanMultiplicity*(5./2.+
107                                     std::log(4.0*static_cast<G4double>(theA)*
108                                         std::sqrt(static_cast<G4double>(theA))*FreeVol/(lambda3*_MeanMultiplicity)));
109                                                               
110                                                               
111    return Entropy;
112}
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