G4QMDParameters.cc

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// Parameters comes from JQMD 
// Niita et al., JAERI-Data/Code 99-042
 
#include "G4QMDParameters.hh"
#include "G4PhysicalConstants.hh"
 
G4QMDParameters* G4QMDParameters::parameters = NULL;
 
G4QMDParameters::G4QMDParameters()
{
 
   wl = 2.0; // width of wave packet [fm]
   hbc = 0.1973;      //   h-bar c in GeVfm
 
   //Pauli
   cpw = 1.0 / 2.0 / wl;
 
   cph = 2.0 * wl / (hbc*hbc);
 
   cpc = 4.0;
 
   epsx = -20.0 ;
 
   rho0 = 0.168;     // satulation density 
 
// Skyrme
   G4double rpot = 1.0/3.0;  
 
   G4double ebinm = -16.0; // bounding energy [MeV] 
   G4double ebin = ebinm * 0.001;
 
   G4double pfer  = hbc * std::pow ( 3./2. *pi*pi * rho0 , 1./3. );
 
   G4double rmass = 0.938; 
 
   G4double efer  = pfer*pfer / 2. / rmass;
 
   G4double t3 = 8. / 3. / rpot / std::pow( rho0 , ( 1.+rpot ) ) * ( efer / 5. - ebin );
 
   G4double t0 = -16./15. * efer / rho0 - ( 1.+rpot ) * t3 * std::pow( rho0 , rpot );
  
 
   G4double aaa = 3./4. * t0 * rho0;
   G4double bbb = 3./8. * t3 * ( 2.+rpot ) * std::pow( rho0 , ( 1.+rpot ) );
   G4double esymm = 25 * 0.001; // symetric potential 25 [MeV] -> GeV
 
   gamm = rpot + 1.0;
 
// Local Potenials
   c0 = aaa / ( rho0 * std::pow( 4 * pi * wl , 1.5 ) * 2.0 );
 
   c3 = bbb / ( std::pow( rho0 , gamm ) * std::pow ( (4.0*pi*wl) , (1.5*gamm) ) * ( gamm+1.0) );
 
   cs = esymm / ( rho0 * std::pow( (4.0*pi*wl) , 1.5 ) * 2.0 );
 
   G4double ccoul = 0.001439767;
   cl = ccoul/2.0 * 1;  // Include Coulomb interaction
   //cl = ccoul/2.0 * 0;  // Not Include Coulomb interaction
 
 
 
// GroundStateNucleus
   cdp = 1.0 / std::pow ( ( 4.0 * pi * wl ) , 1.5 );
   c0p = c0 * 2.0;
   c3p = c3 * ( gamm + 1.0 );
   csp = cs * 2.0;
   clp = cl * 2.0;
 
}
 
 
 
G4QMDParameters::~G4QMDParameters()
{ 
   ;
}