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Geant4/processes/electromagnetic/lowenergy/include/G4QAOLowEnergyLoss.hh

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Diff markup

Differences between /processes/electromagnetic/lowenergy/include/G4QAOLowEnergyLoss.hh (Version 11.3.0) and /processes/electromagnetic/lowenergy/include/G4QAOLowEnergyLoss.hh (Version 3.1)


                                                   >>   1 // This code implementation is the intellectual property of
                                                   >>   2 // the GEANT4 collaboration.
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 14 // * regarding  this  software system or assum << 
 15 // * use.  Please see the license in the file  << 
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 17 // *                                           << 
 18 // * This  code  implementation is the result  << 
 19 // * technical work of the GEANT4 collaboratio << 
 20 // * By using,  copying,  modifying or  distri << 
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 22 // * use  in  resulting  scientific  publicati << 
 23 // * acceptance of all terms of the Geant4 Sof << 
 24 // ******************************************* << 
 25 //                                             << 
 26 //                                                  7 //
 27 // -------------------------------------------      8 // ------------------------------------------------------------
 28 //      GEANT 4 class header file                   9 //      GEANT 4 class header file 
 29 //                                                 10 //
                                                   >>  11 //      For information related to this code contact:
                                                   >>  12 //      CERN, IT Division, ASD group
 30 //      History: New Implementation                13 //      History: New Implementation
 31 //                                                 14 //    
 32 //      ---------- G4QAOLowEnergyLoss physics      15 //      ---------- G4QAOLowEnergyLoss physics process -------
 33 //                  by Stephane Chauvie, 21 Ma     16 //                  by Stephane Chauvie, 21 May 2000 
 34 //                                                 17 //
 35 // Modified:                                       18 // Modified:
 36 // 16/09/2000 S. Chauvie  Oscillator for all m     19 // 16/09/2000 S. Chauvie  Oscillator for all materials
 37 // 23/05/2000 MGP  Made compliant to design        20 // 23/05/2000 MGP  Made compliant to design
 38 // 01/06/2001 V.Ivanchenko replace names by Z  << 
 39 //                                                 21 //  
 40 // Class description:                              22 // Class description:
 41 // Quantal Harmonic Oscillator Model for energ     23 // Quantal Harmonic Oscillator Model for energy loss of low energy antiprotons 
 42 // Further documentation available from http:/     24 // Further documentation available from http://www.ge.infn.it/geant4/lowE
 43                                                    25 
 44 // -------------------------------------------     26 // ------------------------------------------------------------
 45                                                    27 
 46                                                    28  
 47 #ifndef G4QAOLowEnergyLoss_hh                      29 #ifndef G4QAOLowEnergyLoss_hh
 48 #define G4QAOLowEnergyLoss_hh 1                    30 #define G4QAOLowEnergyLoss_hh 1
 49                                                    31 
 50 #include "G4VLowEnergyModel.hh"                    32 #include "G4VLowEnergyModel.hh"
 51 #include "globals.hh"                              33 #include "globals.hh"
 52                                                    34 
 53 class G4QAOLowEnergyLoss : public G4VLowEnergy     35 class G4QAOLowEnergyLoss : public G4VLowEnergyModel
 54 {                                                  36 {
 55 public:                                        <<  37 public: 
 56   explicit G4QAOLowEnergyLoss(const G4String&  <<  38   
                                                   >>  39   G4QAOLowEnergyLoss(const G4String& name); 
                                                   >>  40   
 57   ~G4QAOLowEnergyLoss();                           41   ~G4QAOLowEnergyLoss();
 58                                                    42     
 59   G4double HighEnergyLimit(const G4ParticleDef     43   G4double HighEnergyLimit(const G4ParticleDefinition* aParticle,
 60                            const G4Material* m <<  44                            const G4Material* material) const;
 61   // returns the higher limit for model validi     45   // returns the higher limit for model validity
 62                                                    46 
 63   G4double LowEnergyLimit(const G4ParticleDefi     47   G4double LowEnergyLimit(const G4ParticleDefinition* aParticle,
 64                           const G4Material* ma <<  48                           const G4Material* material) const;
 65   // returns the lower limit for model validit     49   // returns the lower limit for model validity
 66                                                    50  
 67   G4double HighEnergyLimit(const G4ParticleDef <<  51   G4double HighEnergyLimit(const G4ParticleDefinition* aParticle) const;
 68   // returns the higher limit for model validi     52   // returns the higher limit for model validity
 69                                                    53 
 70   G4double LowEnergyLimit(const G4ParticleDefi <<  54   G4double LowEnergyLimit(const G4ParticleDefinition* aParticle) const;
 71   // returns the lower limit for model validit     55   // returns the lower limit for model validity
 72                                                    56  
 73   G4bool IsInCharge(const G4DynamicParticle* p     57   G4bool IsInCharge(const G4DynamicParticle* particle,
 74         const G4Material* material) const over <<  58         const G4Material* material) const;
 75   // returns true if the model is applicable a     59   // returns true if the model is applicable at that energy for
 76   // that particle for that material               60   // that particle for that material
 77                                                    61 
 78   G4bool IsInCharge(const G4ParticleDefinition     62   G4bool IsInCharge(const G4ParticleDefinition* aParticle,
 79         const G4Material* material) const over <<  63         const G4Material* material) const;
 80   // returns true if the model is applicable a     64   // returns true if the model is applicable at that energy for
 81   // that particle for that material               65   // that particle for that material
 82                                                    66   
 83   G4double TheValue(const G4DynamicParticle* p     67   G4double TheValue(const G4DynamicParticle* particle,
 84                const G4Material* material) ove <<  68                const G4Material* material);
 85   // returns the energy loss via the quantal h     69   // returns the energy loss via the quantal harmonic oscillator model 
 86                                                    70   
 87   G4double TheValue(const G4ParticleDefinition     71   G4double TheValue(const G4ParticleDefinition* aParticle,
 88                     const G4Material* material     72                     const G4Material* material,
 89                                 G4double kinet <<  73                                 G4double kineticEnergy);
 90   // returns the energy loss via the quantal h     74   // returns the energy loss via the quantal harmonic oscillator model 
 91                                                    75 
 92 private:                                       <<  76 private:
                                                   >>  77   
 93   G4double EnergyLoss(const G4Material* materi     78   G4double EnergyLoss(const G4Material* material,
 94                             G4double kineticEn     79                             G4double kineticEnergy,
 95                             G4double zParticle     80                             G4double zParticle) const;
 96   // returns the energy loss via the quantal h     81   // returns the energy loss via the quantal harmonic oscillator model 
 97                                                    82    
 98   // get number of shell, energy and oscillato <<  83   // get number of shell, energy and oscillator strenghts for material
 99   G4int GetNumberOfShell(const G4Material* mat     84   G4int GetNumberOfShell(const G4Material* material) const;
100                                                    85 
101   G4double GetShellEnergy(const G4Material* ma     86   G4double GetShellEnergy(const G4Material* material,G4int nbOfTheShell) const; 
102   G4double GetOscillatorEnergy(const G4Materia     87   G4double GetOscillatorEnergy(const G4Material* material,G4int nbOfTheShell) const; 
103   G4double GetShellStrength(const G4Material*      88   G4double GetShellStrength(const G4Material* material,G4int nbOfTheShell) const;
104   G4double GetOccupationNumber(G4int Z, G4int      89   G4double GetOccupationNumber(G4int Z, G4int ShellNb) const;
105                                                    90 
106   // calculate stopping number for L's term        91   // calculate stopping number for L's term
107   G4double GetL0(G4double normEnergy) const;       92   G4double GetL0(G4double normEnergy) const;
108   // terms in Z^2                                  93   // terms in Z^2
109   G4double GetL1(G4double normEnergy) const;       94   G4double GetL1(G4double normEnergy) const;
110   // terms in Z^3                                  95   // terms in Z^3
111   G4double GetL2(G4double normEnergy) const;       96   G4double GetL2(G4double normEnergy) const;
112   // terms in Z^4                                  97   // terms in Z^4
113                                                <<  98   
114   // number, energy and oscillator strengths   <<  99   //  material at now avaliable for the model
                                                   >> 100   static const G4String materialAvailable[6];
                                                   >> 101   
                                                   >> 102   // number, energy and oscillator strenghts
115   // for an harmonic oscillator model of mater    103   // for an harmonic oscillator model of material
116   static const G4int nbofShellForMaterial[6];     104   static const G4int nbofShellForMaterial[6];
117   static const G4double alShellEnergy[3];      << 105   static  G4double alShellEnergy[3];
118   static const G4double alShellStrength[3];    << 106   static  G4double alShellStrength[3];
119   static const G4double siShellEnergy[3];      << 107   static  G4double siShellEnergy[3];
120   static const G4double siShellStrength[3];    << 108   static  G4double siShellStrength[3];
121   static const G4double cuShellEnergy[4];      << 109   static  G4double cuShellEnergy[4];
122   static const G4double cuShellStrength[4];    << 110   static  G4double cuShellStrength[4];
123   static const G4double taShellEnergy[6];      << 111   static  G4double taShellEnergy[6];
124   static const G4double taShellStrength[6];    << 112   static  G4double taShellStrength[6];
125   static const G4double auShellEnergy[6];      << 113   static  G4double auShellEnergy[6];
126   static const G4double auShellStrength[6];    << 114   static  G4double auShellStrength[6];
127   static const G4double ptShellEnergy[6];      << 115   static  G4double ptShellEnergy[6];
128   static const G4double ptShellStrength[6];    << 116   static  G4double ptShellStrength[6];
                                                   >> 117   
                                                   >> 118   G4int numberOfMaterials;
                                                   >> 119 
129   //  variable for calculation of stopping num    120   //  variable for calculation of stopping number of L's term
130   static const G4double L0[67][2];                121   static const G4double L0[67][2];
131   static const G4double L1[22][2];                122   static const G4double L1[22][2];
132   static const G4double L2[14][2];                123   static const G4double L2[14][2];
133   static const G4int nbOfElectronPerSubShell[1    124   static const G4int nbOfElectronPerSubShell[1540];
134   static const G4int fNumberOfShells[101];        125   static const G4int fNumberOfShells[101];
135                                                << 
136   // Z of element at now avaliable for the mod << 
137   static const G4int materialAvailable[6];     << 
138                                                   126   
139   G4int numberOfMaterials;                     << 
140   G4int sizeL0;                                   127   G4int sizeL0;
141   G4int sizeL1;                                   128   G4int sizeL1;
142   G4int sizeL2;                                   129   G4int sizeL2;
143                                                   130   
144 };                                                131 }; 
145                                                   132 
146 #endif                                            133 #endif
147                                                   134