G4StatMFParameters.hh

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// $Id$
//
// Hadronic Process: Nuclear De-excitations
// by V. Lara
 
#ifndef G4StatMFParameters_h
#define G4StatMFParameters_h 1
 
#include "globals.hh"
 
class G4StatMFParameters
{
private:
  static G4StatMFParameters  theStatMFParameters;
  
  // +----------------------+
  // | Constant Parameters: |
  // +----------------------+
  // Kappa is used for calculate volume V_f for translational motion of fragments
  static const G4double _Kappa;
  // KappaCoulomb is used for calculate Coulomb term energy
  static const G4double _KappaCoulomb;
  // Inverse level density
  static const G4double _Epsilon0;
  // Bethe-Weizsacker coefficients
  static const G4double _E0;
  static const G4double _Beta0;
  static const G4double _Gamma0;
  // Critical temperature (for liquid-gas phase transitions)
  static const G4double _CriticalTemp;
  // Nuclear radius
  static const G4double _r0;
  
  
  // default constructor
  G4StatMFParameters() 
  {}
 
 
public:
  
  ~G4StatMFParameters() {};
  
  static G4StatMFParameters * GetAddress();
  
  static G4double GetKappa() { return _Kappa; }
  
  static G4double GetKappaCoulomb() { return _KappaCoulomb; } 
  
  static G4double GetEpsilon0() { return _Epsilon0; }
  
  static G4double GetE0() { return _E0; }
  
  static G4double GetBeta0() { return _Beta0; } 
  
  static G4double GetGamma0() { return _Gamma0; }
  
  static G4double GetCriticalTemp() { return _CriticalTemp; }
  
  static G4double Getr0() { return _r0; }
  
  static G4double Beta(const G4double T);
  
  static G4double DBetaDT(const G4double T);
  
  static G4double GetMaxAverageMultiplicity(const G4int A);
};
 
#endif