Geant4 11.2.2
Toolkit for the simulation of the passage of particles through matter
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G4Fancy3DNucleus.hh
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1//
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25//
26#ifndef G4Fancy3DNucleus_h
27#define G4Fancy3DNucleus_h 1
28
29// ------------------------------------------------------------
30// GEANT 4 class header file
31//
32// ---------------- G4Fancy3DNucleus ----------------
33// by Gunter Folger, May 1998.
34// class for a 3D nucleus, arranging nucleons in space and momentum.
35// ------------------------------------------------------------
36// 20110805 M. Kelsey -- Remove C-style array (pointer) of G4Nucleons,
37// make vector a container of objects. Move testSums,
38// places, momentum and fermiM to class data members for
39// reuse. Remove args from ReduceSum(), use data members.
40
41#include "globals.hh"
42#include "G4DynamicParticle.hh"
43#include "G4Nucleon.hh"
44#include "G4V3DNucleus.hh"
45#include "G4VNuclearDensity.hh"
46#include "G4FermiMomentum.hh"
47#include <vector>
48
50
51// to test if we can drop old interface for (A,Z), comment next line..
52//#define NON_INTEGER_A_Z 1
53
55{
56
57 public:
60
61 private:
63 const G4Fancy3DNucleus & operator=(const G4Fancy3DNucleus &right);
64 G4bool operator==(const G4Fancy3DNucleus &right) const;
65 G4bool operator!=(const G4Fancy3DNucleus &right) const;
66
67
68// Implementation
69 void ChooseNucleons();
70 void ChoosePositions();
71 void ChooseFermiMomenta();
72 G4double BindingEnergy();
73 G4bool ReduceSum();
74
75 public:
76#if defined(NON_INTEGER_A_Z)
77 void Init(G4double theA, G4double theZ, G4int numberOfLambdas = 0);
78#endif
79 void Init(G4int theA, G4int theZ, G4int numberOfLambdas = 0);
82 const std::vector<G4Nucleon> & GetNucleons();
86 G4int GetNumberOfLambdas(); // Non-negative number of Lambdas (for hypernuclei) or anti-Lambdas (for anti-hypernuclei)
88 G4double GetNuclearRadius(const G4double maxRelativeDensity);
93 void DoLorentzBoost(const G4LorentzVector & theBoost);
94 void DoLorentzBoost(const G4ThreeVector & theBeta);
95 void DoLorentzContraction(const G4LorentzVector & theBoost);
96 void DoLorentzContraction(const G4ThreeVector & theBeta);
97 void CenterNucleons();
98 void DoTranslation(const G4ThreeVector & theShift);
100 void SortNucleonsIncZ();
101 void SortNucleonsDecZ();
102
103 private:
104
105 G4int myA;
106 G4int myZ;
107 G4int myL; // Non-negative number of Lambdas (for hypernuclei) or anti-Lambdas (for anti-hypernuclei)
108 std::vector<G4Nucleon> theNucleons;
109
110 G4int currentNucleon;
111 G4VNuclearDensity * theDensity;
112 G4FermiMomentum theFermi;
113 G4double nucleondistance;
114 G4double excitationEnergy;
115
116 std::vector<G4ThreeVector> places; // For selecting locations
117 std::vector<G4ThreeVector> momentum; // For selecting nucleon motion
118 std::vector<G4double> fermiM;
119 std::vector<G4Fancy3DNucleusHelper> testSums; // For sorting nucleon configs
120};
121
122
124{
125 return myZ;
126}
127
129{
130 return myA;
131}
132
134{
135 return myL;
136}
137
139{
140 excitationEnergy +=anE;
141 return excitationEnergy;
142}
143
145{
146 return excitationEnergy;
147}
148
149#endif
double G4double
Definition G4Types.hh:83
bool G4bool
Definition G4Types.hh:86
int G4int
Definition G4Types.hh:85
const std::vector< G4Nucleon > & GetNucleons()
G4double AddExcitationEnergy(G4double)
G4Nucleon * GetNextNucleon()
const G4VNuclearDensity * GetNuclearDensity() const
void DoLorentzContraction(const G4LorentzVector &theBoost)
void Init(G4int theA, G4int theZ, G4int numberOfLambdas=0)
G4double GetNuclearRadius()
void DoTranslation(const G4ThreeVector &theShift)
G4double GetExcitationEnergy()
void DoLorentzBoost(const G4LorentzVector &theBoost)