Geant4-11
G4StatMFMicroPartition.hh
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28// Hadronic Process: Nuclear De-excitations
29// by V. Lara
30
31#ifndef G4StatMFMicroPartition_h
32#define G4StatMFMicroPartition_h 1
33
34#include <vector>
35
36#include "globals.hh"
37#include "G4StatMFParameters.hh"
38#include "G4StatMFChannel.hh"
39
40class G4StatMFMicroPartition {
41
42public:
43 // Constructor
44 G4StatMFMicroPartition(G4int A, G4int Z) :
45 theA(A), theZ(Z), _Probability(0.0), _Temperature(0.0),
46 _Entropy(0.0) {};
47
48
49 // Destructor
50 ~G4StatMFMicroPartition() {};
51
52
53private:
54 // Default constructor
55 G4StatMFMicroPartition() {};
56
57 // Copy constructor
58 G4StatMFMicroPartition(const G4StatMFMicroPartition & right);
59
60 // operators
61 G4StatMFMicroPartition & operator=(const G4StatMFMicroPartition & right);
62public:
63 G4bool operator==(const G4StatMFMicroPartition & right) const;
64 G4bool operator!=(const G4StatMFMicroPartition & right) const;
65
66public:
67
68 // Gives fragments charges
69 G4StatMFChannel * ChooseZ(G4int A0, G4int Z0, G4double MeanT);
70
71 G4double GetProbability(void)
72 { return _Probability; }
73
74 void SetPartitionFragment(G4int anA)
75 {
76 _thePartition.push_back(anA);
77 CoulombFreeEnergy(anA);
78 }
79
80 void Normalize(G4double Normalization)
81 { _Probability /= Normalization; }
82
83 G4double CalcPartitionProbability(G4double U,
84 G4double FreeInternalE0,
85 G4double SCompound);
86
87 G4double GetTemperature(void)
88 {
89 return _Temperature;
90 }
91
92 G4double GetEntropy(void)
93 {
94 return _Entropy;
95 }
96
97private:
98
99 void CoulombFreeEnergy(G4int anA);
100
101 G4double CalcPartitionTemperature(G4double U,
102 G4double FreeInternalE0);
103
104 G4double GetPartitionEnergy(G4double T);
105
106 G4double GetCoulombEnergy(void);
107
108 G4double GetDegeneracyFactor(G4int A);
109
110 G4double InvLevelDensity(G4double Af)
111 {
112 // Calculate Inverse Density Level
113 // Epsilon0*(1 + 3 /(Af - 1))
114 if (Af < 1.5) return 0.0;
115 else return G4StatMFParameters::GetEpsilon0()*(1.0+3.0/(Af - 1.0));
116 }
117
118private:
119
120 // A and Z of initial nucleus
121 G4int theA;
122 G4int theZ;
123
124 // Partition probability
125 G4double _Probability;
126
127 // Partition temperature
128 G4double _Temperature;
129
130 // Partition entropy
131 G4double _Entropy;
132
133 // The partition itself
134 std::vector<G4int> _thePartition;
135
136 std::vector<G4double> _theCoulombFreeEnergy;
137
138};
139
140#endif
G4double
double G4double
Definition: G4Types.hh:83
G4bool
bool G4bool
Definition: G4Types.hh:86
G4int
int G4int
Definition: G4Types.hh:85
Z
const G4int Z[17]
Definition: G4WaterStopping.cc:51
A
const G4double A[17]
Definition: G4WaterStopping.cc:53
G4StatMFMicroPartition::GetDegeneracyFactor
G4double GetDegeneracyFactor(G4int A)
Definition: G4StatMFMicroPartition.cc:304
G4StatMFMicroPartition::operator==
G4bool operator==(const G4StatMFMicroPartition &right) const
Definition: G4StatMFMicroPartition.cc:56
G4StatMFMicroPartition::CalcPartitionProbability
G4double CalcPartitionProbability(G4double U, G4double FreeInternalE0, G4double SCompound)
Definition: G4StatMFMicroPartition.cc:228
G4StatMFMicroPartition::_thePartition
std::vector< G4int > _thePartition
Definition: G4StatMFMicroPartition.hh:134
G4StatMFMicroPartition::Normalize
void Normalize(G4double Normalization)
Definition: G4StatMFMicroPartition.hh:80
G4StatMFMicroPartition::SetPartitionFragment
void SetPartitionFragment(G4int anA)
Definition: G4StatMFMicroPartition.hh:74
G4StatMFMicroPartition::operator=
G4StatMFMicroPartition & operator=(const G4StatMFMicroPartition &right)
Definition: G4StatMFMicroPartition.cc:49
G4StatMFMicroPartition::_theCoulombFreeEnergy
std::vector< G4double > _theCoulombFreeEnergy
Definition: G4StatMFMicroPartition.hh:136
G4StatMFMicroPartition::InvLevelDensity
G4double InvLevelDensity(G4double Af)
Definition: G4StatMFMicroPartition.hh:110
G4StatMFMicroPartition::G4StatMFMicroPartition
G4StatMFMicroPartition(G4int A, G4int Z)
Definition: G4StatMFMicroPartition.hh:44
G4StatMFMicroPartition::CalcPartitionTemperature
G4double CalcPartitionTemperature(G4double U, G4double FreeInternalE0)
Definition: G4StatMFMicroPartition.cc:173
G4StatMFMicroPartition::operator!=
G4bool operator!=(const G4StatMFMicroPartition &right) const
Definition: G4StatMFMicroPartition.cc:63
G4StatMFMicroPartition::GetPartitionEnergy
G4double GetPartitionEnergy(G4double T)
Definition: G4StatMFMicroPartition.cc:112
G4StatMFMicroPartition::ChooseZ
G4StatMFChannel * ChooseZ(G4int A0, G4int Z0, G4double MeanT)
Definition: G4StatMFMicroPartition.cc:317
G4StatMFParameters::GetEpsilon0
static G4double GetEpsilon0()
Definition: G4StatMFParameters.cc:74
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