G4QMDMeanField.hh

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// G4QMDMeanField
//
// Author: Tatsumi Koi (SLAC), 29 March 2007
// --------------------------------------------------------------------
#ifndef G4QMDMeanField_hh
#define G4QMDMeanField_hh
 
#include "G4QMDSystem.hh"
#include "G4QMDNucleus.hh"
 
class G4QMDMeanField 
{
   public:
 
      G4QMDMeanField();
      ~G4QMDMeanField() = default;
 
      void SetSystem ( G4QMDSystem* aSystem );
      void SetNucleus ( G4QMDNucleus* aSystem );
      inline G4QMDSystem* GetSystem () { return system; }
 
      void Cal2BodyQuantities(); 
      void Cal2BodyQuantities( G4int ); 
 
      void CalGraduate(); 
 
      G4bool IsPauliBlocked( G4int ); 
 
      G4double GetTotalPotential();
      G4double GetPotential( G4int );
 
      void DoPropagation( G4double );
 
      std::vector< G4QMDNucleus* > DoClusterJudgment();
 
      inline G4double GetRR2( G4int i , G4int j ) { return rr2[i][j]; }
 
      inline G4double GetRHA( G4int i , G4int j ) { return rha[i][j]; }
      inline G4double GetRHE( G4int i , G4int j ) { return rhe[i][j]; }
      inline G4ThreeVector GetFFr( G4int i ) { return ffr[i]; }
      inline G4ThreeVector GetFFp( G4int i ) { return ffp[i]; }
 
      std::vector< G4double > GetLocalDensity();  
      std::vector< G4double > GetDepthOfPotential();  
 
      void Update();
 
   private:
 
      G4double calPauliBlockingFactor( G4int ); 
 
   private:
 
      G4QMDSystem* system; 
 
      G4double rclds { 4.0 };    // distance for cluster judgement 
 
      G4double hbc , rho0;
      G4double epsx { -20.0 };   // gauss term
      G4double epscl { 0.0001 }; // coulomb term
 
      G4double cpc;
 
      //G4int icoul, irelcr;
      G4int irelcr { 1 };
      G4double gamm, c0, c3, cs, cl, wl; 
      //G4double c0w, c3w, clw, c0sw;
      G4double c0w, clw, c0sw;
 
      G4double c0g,c3g,csg,pag; 
 
      G4double cpw,cph;
       
      // 2 Body Quantities 
      std::vector < std::vector < G4double > > rr2;    
      std::vector < std::vector < G4double > > pp2;    
      std::vector < std::vector < G4double > > rbij;    
 
      // Gauss 
      std::vector < std::vector < G4double > > rha;    
 
      // Coulomb
      std::vector < std::vector < G4double > > rhe;    
      std::vector < std::vector < G4double > > rhc;    
                                         
      std::vector < G4ThreeVector > ffr;    
      std::vector < G4ThreeVector > ffp;    
      std::vector < G4double > rh3d;
};
 
#endif