G4PreCompoundFragment.hh

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// $Id$
//
//  J. M. Quesada (August 2008).  
//  Based  on previous work by V. Lara
//
// Modified:
// 03.09.2008 by J. M. Quesada for external choice of inverse 
//                    cross section option (default OPTxs=2)
// 06.09.2008 by JMQ Also external choice has been added for
//     superimposed Coulomb barrier (if useSICB=true, default false) 
// 20.08.2010 V.Ivanchenko added int Z and A and cleanup; added 
//                        G4ParticleDefinition to constructor
 
#ifndef G4PreCompoundFragment_h
#define G4PreCompoundFragment_h 1
 
#include "G4VPreCompoundFragment.hh"
 
class G4PreCompoundFragment : public G4VPreCompoundFragment
{
public:  
 
  G4PreCompoundFragment(const G4ParticleDefinition*,
            G4VCoulombBarrier * aCoulombBarrier);
  
  virtual ~G4PreCompoundFragment();
      
  // ================================================
  // Methods for calculating the emission probability
  // ================================================
  
  // Calculates the total (integrated over kinetic energy) emission
  // probability of a fragment
  G4double CalcEmissionProbability(const G4Fragment & aFragment);
  
  G4double GetKineticEnergy(const G4Fragment & aFragment);
 
protected:
 
  virtual G4double 
  ProbabilityDistributionFunction(G4double K, 
                  const G4Fragment & aFragment) = 0; 
 
private:    
  // This method performs integration for probability function over 
  // fragment kinetic energy
  G4double IntegrateEmissionProbability(G4double Low, 
                    G4double Up, 
                    const G4Fragment & aFragment);  
 
  // default constructor
  G4PreCompoundFragment();
  // operators
  G4PreCompoundFragment(const G4PreCompoundFragment &right);
  const G4PreCompoundFragment& 
  operator= (const G4PreCompoundFragment &right);
  G4int operator==(const G4PreCompoundFragment &right) const;
  G4int operator!=(const G4PreCompoundFragment &right) const;
 
};
 
#endif