Geant4  10.00.p03
G4IonisParamMat.hh
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26 // $Id: G4IonisParamMat.hh 68070 2013-03-13 15:03:06Z gcosmo $
27 //
28 
29 // class description
30 //
31 // The class contains few (physical) quantities related to the Ionisation
32 // process, for a material defined by its pointer G4Material*
33 //
34 
35 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... ....oooOO0OOooo....
36 
37 // 09-07-98: data moved from G4Material (mma)
38 // 09-03-01: copy constructor and assignement operator in public (mma)
39 // 28-10-02: add setMeanExcitationEnergy (V.Ivanchenko)
40 // 27-09-07: add computation of parameters for ions (V.Ivanchenko)
41 // 04-03-08: add fBirks constant (mma)
42 
43 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... ....oooOO0OOooo....
44 
45 #ifndef G4IonisParamMat_HH
46 #define G4IonisParamMat_HH
47 
48 #include "G4ios.hh"
49 #include "globals.hh"
50 
51 class G4Material; // forward declaration
53 
54 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... ....oooOO0OOooo....
55 
56 class G4IonisParamMat // with description
57 {
58 public:
59 
61  virtual ~G4IonisParamMat();
62 
63  //
64  // retrieval methods
65  //
66 
67  // parameters for mean energy loss calculation:
70  G4double FindMeanExcitationEnergy(const G4String& chFormula);
73  G4double GetTaul() const {return fTaul;};
74 
75  // parameters of the density correction:
78  G4double GetCdensity() const {return fCdensity;};
79  G4double GetMdensity() const {return fMdensity;};
80  G4double GetAdensity() const {return fAdensity;};
81  G4double GetX0density() const {return fX0density;};
82  G4double GetX1density() const {return fX1density;};
83  G4double GetD0density() const {return fD0density;};
84 
85  // compute density correction as a function of the kinematic variable
86  // x = log10(beta*gamma)
89 
90  // parameters of the energy loss fluctuation model:
91  G4double GetF1fluct() const {return fF1fluct;};
92  G4double GetF2fluct() const {return fF2fluct;};
99 
100  // parameters for ion corrections computations
101  G4double GetZeffective() const {return fZeff;};
103  G4double GetLFactor() const {return fLfactor;};
104  G4double GetInvA23() const {return fInvA23;};
105 
106  // parameters for Birks attenuation:
107  void SetBirksConstant(G4double value) {fBirks = value;};
108  G4double GetBirksConstant() const {return fBirks;};
109 
110  // parameters for average energy per ion
113 
114 public: // without description
115 
118  G4int operator==(const G4IonisParamMat&) const;
119  G4int operator!=(const G4IonisParamMat&) const;
120 
121  G4IonisParamMat(__void__&);
122  // Fake default constructor for usage restricted to direct object
123  // persistency for clients requiring preallocation of memory for
124  // persistifiable objects.
125 
126 private:
127 
128  // Compute mean parameters : ExcitationEnergy,Shell corretion vector ...
129  void ComputeMeanParameters();
130 
131  // Compute parameters for the density effect
132  void ComputeDensityEffect();
133 
134  // Compute parameters for the energy fluctuation model
135  void ComputeFluctModel();
136 
137  // Compute parameters for ion parameterizations
138  void ComputeIonParameters();
139 
140 private:
141 
142 //
143 // data members
144 //
145  G4Material* fMaterial; // this material
146 
147  // parameters for mean energy loss calculation
150  G4double* fShellCorrectionVector; // shell correction coefficients
151  G4double fTaul; // lower limit of Bethe-Bloch formula
152 
153  // parameters of the density correction
154  G4double fCdensity; // mat.constant
155  G4double fMdensity; // exponent
160 
163 
164  // parameters of the energy loss fluctuation model
173 
174  // parameters for ion corrections computations
179 
180  // parameter for Birks attenuation
182  // average energy per ion pair
184 
185  // static data created only once
188 };
189 
190 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... ....oooOO0OOooo....
191 
193 {
194  // x = log10(beta*gamma)
195 
196  G4double y = 0.0;
197  if(x < fX0density) {
198  if(fD0density > 0.0) { y = fD0density*std::pow(10.,2*(x - fX0density)); }
199  } else if(x >= fX1density) { y = twoln10*x - fCdensity; }
200  else {y = twoln10*x - fCdensity + fAdensity*std::pow(fX1density - x, fMdensity);}
201  return y;
202 }
203 
204 #endif
G4IonisParamMat & operator=(const G4IonisParamMat &)
G4double fLogEnergy2fluct
G4double GetAdensity() const
G4double GetEnergy2fluct() const
G4double GetMeanEnergyPerIonPair() const
G4double FindMeanExcitationEnergy(const G4String &chFormula)
void SetMeanExcitationEnergy(G4double value)
void SetBirksConstant(G4double value)
G4double GetX1density() const
G4double fAdjustmentFactor
G4double GetLogEnergy2fluct() const
G4double GetTaul() const
G4double GetLogMeanExcEnergy() const
int G4int
Definition: G4Types.hh:78
G4double GetZeffective() const
G4double GetBirksConstant() const
G4double GetFermiEnergy() const
G4double GetEnergy0fluct() const
G4double fRateionexcfluct
G4double GetInvA23() const
virtual ~G4IonisParamMat()
G4double GetAdjustmentFactor() const
G4double GetPlasmaEnergy() const
G4double fLogMeanExcEnergy
G4double fMeanEnergyPerIon
G4double fLogEnergy1fluct
static G4DensityEffectData * GetDensityEffectData()
G4double fMeanExcitationEnergy
G4double * fShellCorrectionVector
G4double GetLogEnergy1fluct() const
G4double GetX0density() const
G4double GetRateionexcfluct() const
G4double DensityCorrection(G4double x)
G4double GetCdensity() const
G4Material * fMaterial
G4IonisParamMat(G4Material *)
G4double * GetShellCorrectionVector() const
G4int operator!=(const G4IonisParamMat &) const
G4double GetMeanExcitationEnergy() const
G4double GetF2fluct() const
G4double GetLFactor() const
double G4double
Definition: G4Types.hh:76
G4double GetD0density() const
G4double GetMdensity() const
G4int operator==(const G4IonisParamMat &) const
G4double GetF1fluct() const
static G4DensityEffectData * fDensityData
void ComputeMeanParameters()
G4double GetEnergy1fluct() const
void SetMeanEnergyPerIonPair(G4double value)