Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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G4GEMCoulombBarrier.cc
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25//
26// J. M. Quesada (July 2009): New class based on G4GEMCoulombBarrierHE
27// Coded strictly according to Furihata's GEM paper
28// NEW:effective decrease of barrier with E* (Barashenkov) has been added
29//
32#include "G4Pow.hh"
34#include "G4SystemOfUnits.hh"
35
37 G4CoulombBarrier(anA, aZ)
38{
39 AejectOneThird = g4calc->Z13(anA);
40}
41
43 G4double U) const
44{
45 // Calculation of Coulomb potential energy (barrier) for outgoing fragment
46 G4double Barrier = 0.0;
47 if (theZ > 0 && ZRes > 0) {
48
49 G4double CompoundRadius = CalcCompoundRadius(ARes);
50 Barrier = CLHEP::elm_coupling * (theZ * ZRes)/CompoundRadius;
51
52 // Barrier penetration coeficient
53 if(theA <= 4) { Barrier *= BarrierPenetrationFactor(ZRes); }
54
55 //JMQ 200709 effective decrease of barrier with E* (Barashenkov)
56 // (not inclued in original Furihata's formulation)
57 Barrier /= (1.0 + std::sqrt(U/((2*ARes)*CLHEP::MeV)));
58 }
59 return Barrier;
60}
61
62G4double G4GEMCoulombBarrier::CalcCompoundRadius(G4int ARes) const
63{
64 G4double AresOneThird = g4calc->Z13(ARes);
65
66 G4double Result = 0.0;
67 if(theA == 1){
68 Result = 1.7* AresOneThird;
69
70 } else if (theA <= 4){
71 Result = 1.7* AresOneThird + 1.2;
72
73 } else {
74 Result = 1.12*(AresOneThird + AejectOneThird) -
75 0.86*(AresOneThird+AejectOneThird)/(AresOneThird*AejectOneThird)+3.75;
76 }
77 return Result*CLHEP::fermi;
78}
79
80
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
G4double BarrierPenetrationFactor(G4int aZ) const override
G4GEMCoulombBarrier(G4int anA, G4int aZ)
G4double GetCoulombBarrier(G4int ARes, G4int ZRes, G4double U) const override
G4double Z13(G4int Z) const
Definition: G4Pow.hh:123