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26 //
27 // Geant4 header G4NuclearRadii
28 //
29 // Author V.Ivanchenko 27.05.2019
30 //
31 // Collection of parameterisations of nuclear
32 // different classes in cross section and mode
33 //
34
35 #ifndef G4NuclearRadii_h
36 #define G4NuclearRadii_h 1
37
38 #include "globals.hh"
39
40 class G4Pow;
41 class G4ParticleDefinition;
42
43 class G4NuclearRadii
44 {
45 public:
46
47 // explicit radii for light nuclei
48 static G4double ExplicitRadius(G4int Z, G4in
49
50 // algorithm from diffuse-elastic parameteri
51 static G4double Radius(G4int Z, G4int A);
52
53 // algorithm from e-A scattering data (V.Gri
54 static G4double RadiusRMS(G4int Z, G4int A);
55
56 // algorithm from Glauber-Gribov nucluear-nu
57 static G4double RadiusNNGG(G4int Z, G4int A)
58
59 // algorithm of Edward Simpsons & Dousatsu S
60 static G4double RadiusECS(G4int Z, G4int A);
61
62 // algorithm from Glauber-Gribov hadron-nucl
63 static G4double RadiusHNGG(G4int A);
64
65 // algorithm from Glauber-Gribov kaon-nuclea
66 static G4double RadiusKNGG(G4int A);
67
68 // algorithm from nuclear de-excitation modu
69 static G4double RadiusND(G4int A);
70
71 // algorithm from computation of Coulomb bar
72 // de-excitation module
73 static G4double RadiusCB(G4int Z, G4int A);
74
75 // algorithm from computation of Coulomb bar
76 static G4double ParticleRadius(const G4Parti
77
78 // algorithm for hadron-nucleon x-section
79 static G4double CoulombFactor(
80 const G4ParticleDefinition* thePartic
81 const G4ParticleDefinition* nucleon,
82 G4double ekin);
83
84 // algorithm for hadron-nucleus x-section
85 static G4double CoulombFactor(
86 G4int Z, G4int A,
87 const G4ParticleDefinition* thePartic
88 G4double ekin);
89
90 // parameterisation of threshold shape of cr
91 static G4double NeutronInelasticShape(G4int
92 static G4double ProtonInelasticShape(G4int Z
93
94 static G4Pow* fG4pow;
95 static const G4double r0[93];
96
97 };
98
99 #endif
100
101
102