Geant4 11.1.1
Toolkit for the simulation of the passage of particles through matter
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GVFlashShowerParameterisation.hh
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1//
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29//---------------------------------------------------------------
30// GEANT 4 class header file
31//
32// GVFlashShowerParameterisation
33//
34// Class description:
35//
36// Base class for GFlash shower parameterisation.
37
38// Author: Joanna Weng - 11.2005
39//---------------------------------------------------------------
40#ifndef GVFlashShowerParameterisation_h
41#define GVFlashShowerParameterisation_h 1
42
43#include "globals.hh"
45
46class MyGamma;
47class G4Material;
48
49
51{
52public: // with description
53
56
57 virtual void ComputeRadialParameters(G4double y, G4double Tau) = 0;
58 virtual void GenerateLongitudinalProfile(G4double Energy) = 0;
59 virtual G4double IntegrateEneLongitudinal(G4double LongitudinalStep) = 0;
60 virtual G4double IntegrateNspLongitudinal(G4double LongitudinalStep) = 0;
61 virtual G4double ComputeTau(G4double LongitudinalPosition) = 0;
62 virtual G4double GenerateRadius(G4int ispot, G4double Energy,
63 G4double LongitudinalPosition) = 0;
65 virtual void GenerateEnergyProfile(G4double y) = 0;
66 virtual void GenerateNSpotProfile(G4double y) = 0;
68
69 virtual G4double GetAveR99() = 0;
70 virtual G4double GetAveR90() = 0;
71
72 virtual G4double GetAveTmx() = 0;
73 virtual G4double GetAveT99() = 0;
74 virtual G4double GetAveT90() = 0;
75
76 virtual G4double GetNspot() = 0;
77 virtual G4double GetX0() = 0;
78 virtual G4double GetEc() = 0;
79 virtual G4double GetRm() = 0;
80
82 G4double GetEffZ(const G4Material * material);
83 G4double GetEffA(const G4Material * material);
84 G4double gam(G4double x, G4double a) const; // @@@@ gamma function
85 void PrintMaterial(const G4Material * mat);
86
87protected:
88
90 // Parameterisation parameters
92 // Medium related quantities
94
95private:
96 MyGamma* fGamma;
97
98};
99
100#endif
double G4double
Definition: G4Types.hh:83
int G4int
Definition: G4Types.hh:85
virtual void GenerateNSpotProfile(G4double y)=0
G4double GetEffZ(const G4Material *material)
virtual G4double IntegrateEneLongitudinal(G4double LongitudinalStep)=0
virtual G4double GetEc()=0
virtual G4double GetAveR90()=0
G4double GetEffA(const G4Material *material)
virtual G4double GetAveR99()=0
virtual void GenerateLongitudinalProfile(G4double Energy)=0
virtual void ComputeLongitudinalParameters(G4double y)=0
virtual G4double GenerateExponential(G4double Energy)=0
virtual G4double GetAveT99()=0
virtual G4double GenerateRadius(G4int ispot, G4double Energy, G4double LongitudinalPosition)=0
virtual G4double GetRm()=0
G4double gam(G4double x, G4double a) const
virtual G4double GetAveT90()=0
virtual G4double GetAveTmx()=0
virtual G4double GetX0()=0
virtual void GenerateEnergyProfile(G4double y)=0
virtual G4double IntegrateNspLongitudinal(G4double LongitudinalStep)=0
virtual G4double ComputeTau(G4double LongitudinalPosition)=0
virtual void ComputeRadialParameters(G4double y, G4double Tau)=0
virtual G4double GetNspot()=0
Definition: Gamma.hh:46