G4FermiPhaseSpaceDecay.hh

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//
// Hadronic Process: Phase space decay for the Fermi BreakUp model
// by V. Lara
//
// Modifications:
// 01.04.2011 General cleanup by V.Ivanchenko: 
//          - IsotropicVector is inlined
//          - Momentum computation return zero or positive value
//          - DumpProblem method is added providing more information
//          - Reduced usage of exotic std functions  
//
 
#ifndef G4FermiPhaseSpaceDecay_hh
#define G4FermiPhaseSpaceDecay_hh 1
 
#include "G4LorentzVector.hh"
#include "G4ThreeVector.hh"
#include "Randomize.hh"
 
#include <vector>
 
class G4Pow;
 
class G4FermiPhaseSpaceDecay
{
public:
 
  G4FermiPhaseSpaceDecay();
  ~G4FermiPhaseSpaceDecay();
  
  std::vector<G4LorentzVector*>* Decay(G4double parent_mass, 
    const std::vector<G4double>& fragment_masses) const;
 
private:
 
  inline G4double PtwoBody(G4double E, G4double P1, G4double P2) const;
  
  G4double BetaKopylov(G4int, CLHEP::HepRandomEngine*) const; 
 
  std::vector<G4LorentzVector*> * 
  KopylovNBodyDecay(G4double, const std::vector<G4double>&) const;
 
  G4FermiPhaseSpaceDecay(const G4FermiPhaseSpaceDecay&) = delete;
  const G4FermiPhaseSpaceDecay & operator=
  (const G4FermiPhaseSpaceDecay &) = delete; 
  G4bool operator==(const G4FermiPhaseSpaceDecay&) = delete;
  G4bool operator!=(const G4FermiPhaseSpaceDecay&) = delete;
 
  G4Pow* g4calc;
};
 
inline G4double 
G4FermiPhaseSpaceDecay::PtwoBody(G4double E, G4double P1, G4double P2) const
{
  G4double P = (E+P1+P2)*(E+P1-P2)*(E-P1+P2)*(E-P1-P2)/(4.0*E*E);
  return (P>0.0) ? std::sqrt(P) : 0.0; 
}
 
#endif