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Geant4/processes/hadronic/models/de_excitation/multifragmentation/include/G4StatMFParameters.hh

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 26 //
 27 //
 28 // Hadronic Process: Nuclear De-excitations
 29 // by V. Lara
 30 
 31 #ifndef G4StatMFParameters_h
 32 #define G4StatMFParameters_h 1
 33 
 34 #include "globals.hh"
 35 
 36 class G4StatMFParameters
 37 {
 38 public:
 39   
 40   G4StatMFParameters();
 41 
 42   ~G4StatMFParameters();
 43   
 44   static G4double GetKappa();
 45   
 46   static G4double GetKappaCoulomb(); 
 47   
 48   static G4double GetEpsilon0();
 49   
 50   static G4double GetE0();
 51   
 52   static G4double GetBeta0(); 
 53   
 54   static G4double GetGamma0();
 55   
 56   static G4double GetCriticalTemp();
 57   
 58   static G4double Getr0();
 59 
 60   static G4double GetCoulomb();
 61   
 62   static G4double Beta(G4double T);
 63   
 64   static G4double DBetaDT(G4double T);
 65   
 66   static G4double GetMaxAverageMultiplicity(G4int A);
 67 
 68   // +----------------------+
 69   // | Constant Parameters: |
 70   // +----------------------+
 71   // Kappa is used for calculate volume V_f for translational 
 72   // motion of fragments
 73   static const G4double fKappa;
 74   // KappaCoulomb is used for calculate Coulomb term energy
 75   static const G4double fKappaCoulomb;
 76   // Inverse level density
 77   static const G4double fEpsilon0;
 78   // Bethe-Weizsacker coefficients
 79   static const G4double fE0;
 80   static const G4double fBeta0;
 81   static const G4double fGamma0;
 82   // Critical temperature (for liquid-gas phase transitions)
 83   static const G4double fCriticalTemp;
 84   // Nuclear radius
 85   static const G4double fr0;
 86   // Coulomb 
 87   static const G4double fCoulomb;
 88 
 89 };
 90 
 91 #endif
 92