Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4VPreCompoundFragment.cc
Go to the documentation of this file.
1//
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26//
27// J. M. Quesada (August 2008). Based on previous work by V. Lara
28//
29// Modified:
30// 20.08.2010 V.Ivanchenko added G4Pow and G4PreCompoundParameters pointers
31// use int Z and A and cleanup
32
34#include "G4SystemOfUnits.hh"
35#include "G4NucleiProperties.hh"
36#include "G4NuclearLevelData.hh"
38
40 const G4ParticleDefinition* part, G4VCoulombBarrier* aCoulombBarrier)
41 : particle(part), theCoulombBarrierPtr(aCoulombBarrier),
42 theMomentum(0.,0.,0.,0.),
43 theA(particle->GetBaryonNumber()),
44 theZ(G4lrint(particle->GetPDGCharge())),
45 theResA(0),theResZ(0),theFragA(0),theFragZ(0),theBindingEnergy(0.0),
46 theMinKinEnergy(0.0),theMaxKinEnergy(0.0),theResMass(0.0),
47 theReducedMass(0.0),
48 theEmissionProbability(0.0),theCoulombBarrier(0.0),
49 OPTxs(3),useSICB(true)
50{
51 theMass = particle->GetPDGMass();
55 theResA13 = 0.0;
56}
57
59{}
60
61std::ostream&
62operator << (std::ostream &out, const G4VPreCompoundFragment &theFragment)
63{
64 out << &theFragment;
65 return out;
66}
67
68std::ostream&
69operator << (std::ostream &out, const G4VPreCompoundFragment *theFragment)
70{
71 out
72 << "PreCompoundModel Emitted Fragment: Z= " << theFragment->GetZ()
73 << " A= " << theFragment->GetA()
74 << " Mass(GeV)= " << theFragment->GetNuclearMass()/CLHEP::GeV;
75 return out;
76}
77
78void
80{
81 theFragA = aFragment.GetA_asInt();
82 theFragZ = aFragment.GetZ_asInt();
85
87 if ((theResA < theResZ) || (theResA < theA) || (theResZ < theZ)) {
88 return;
89 }
90
92 theCoulombBarrier = theCoulombBarrierPtr->
93 GetCoulombBarrier(theResA,theResZ,aFragment.GetExcitationEnergy());
94
96
97 // Calculate masses
100
101 // Compute Binding Energies for fragments
102 // needed to separate a fragment from the nucleus
104
105 // Compute Maximal Kinetic Energy which can be carried by fragments
106 // after separation - the true assimptotic value
107 G4double Ecm = aFragment.GetMomentum().m();
108 G4double twoEcm = Ecm + Ecm;
109 theMaxKinEnergy = std::max(((Ecm-theResMass)*(Ecm+theResMass) + theMass*theMass)
110 /twoEcm - theMass,0.0);
111 theMinKinEnergy = (elim == 0.0) ? 0.0 :
112 std::max(((theMass+elim)*(twoEcm-theMass-elim) +
113 theMass*theMass)/twoEcm - theMass,0.0);
114}
double G4double
Definition: G4Types.hh:83
std::ostream & operator<<(std::ostream &out, const G4VPreCompoundFragment &theFragment)
G4double GetGroundStateMass() const
Definition: G4Fragment.hh:280
G4double GetExcitationEnergy() const
Definition: G4Fragment.hh:275
const G4LorentzVector & GetMomentum() const
Definition: G4Fragment.hh:299
G4int GetZ_asInt() const
Definition: G4Fragment.hh:263
G4int GetA_asInt() const
Definition: G4Fragment.hh:258
G4DeexPrecoParameters * GetParameters()
static G4NuclearLevelData * GetInstance()
static G4double GetNuclearMass(const G4double A, const G4double Z)
static G4Pow * GetInstance()
Definition: G4Pow.cc:41
G4double Z13(G4int Z) const
Definition: G4Pow.hh:123
G4VPreCompoundFragment(const G4ParticleDefinition *, G4VCoulombBarrier *aCoulombBarrier)
G4NuclearLevelData * fNucData
G4double GetNuclearMass() const
G4DeexPrecoParameters * theParameters
void Initialize(const G4Fragment &aFragment)
int G4lrint(double ad)
Definition: templates.hh:134