Geant4 Cross Reference

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Geant4/processes/electromagnetic/standard/include/G4PAIxSection.hh

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Differences between /processes/electromagnetic/standard/include/G4PAIxSection.hh (Version 11.3.0) and /processes/electromagnetic/standard/include/G4PAIxSection.hh (Version 9.2.p4)


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 24 // *******************************************     24 // ********************************************************************
                                                   >>  25 //
                                                   >>  26 //
                                                   >>  27 // $Id: G4PAIxSection.hh,v 1.15 2008/05/30 16:04:40 grichine Exp $
                                                   >>  28 // GEANT4 tag $Name: geant4-09-02-patch-04 $
                                                   >>  29 //
 25 //                                                 30 // 
 26 // G4PAIxSection.hh -- header file                 31 // G4PAIxSection.hh -- header file
 27 //                                                 32 //
 28 // GEANT 4 class header file --- Copyright CER     33 // GEANT 4 class header file --- Copyright CERN 1995
 29 // CERB Geneva Switzerland                         34 // CERB Geneva Switzerland
 30 //                                                 35 //
 31 // for information related to this code, pleas     36 // for information related to this code, please, contact
 32 // CERN, CN Division, ASD Group                    37 // CERN, CN Division, ASD Group
 33 //                                                 38 //
 34 // Preparation of ionizing collision cross sec     39 // Preparation of ionizing collision cross section according to Photo Absorption 
 35 // Ionization (PAI) model for simulation of io     40 // Ionization (PAI) model for simulation of ionization energy losses in very thin
 36 // absorbers. Author: Vladimir.Grichine@cern.c     41 // absorbers. Author: Vladimir.Grichine@cern.ch
 37 //                                                 42 //
 38 // History:                                        43 // History:
 39 //                                                 44 //
 40 // 28.10.11, V. Ivanchenko: Migration of excep <<  45 // 19.10.03, V. Grichine: Integral dEdx was added for G4PAIModel class  
 41 // 19.10.03, V. Grichine: Integral dEdx was ad <<  46 //                       
 42 // 13.05.03, V. Grichine: Numerical instabilit     47 // 13.05.03, V. Grichine: Numerical instability was fixed in SumOverInterval/Border 
 43 //                        functions                48 //                        functions
 44 // 10.02.02, V. Grichine: New functions and ar     49 // 10.02.02, V. Grichine: New functions and arrays/gets for Cerenkov and 
 45 //                        plasmon collisions d     50 //                        plasmon collisions dN/dx
 46 // 27.10.99, V. Grichine: Bug fixed in constru     51 // 27.10.99, V. Grichine: Bug fixed in constructors, 3rd constructor and 
 47 //                        GetStepEnergyLoss(st     52 //                        GetStepEnergyLoss(step) were added, fDelta = 0.005
 48 // 30.11.97, V. Grichine: 2nd version              53 // 30.11.97, V. Grichine: 2nd version 
 49 // 11.06.97, V. Grichine: 1st version              54 // 11.06.97, V. Grichine: 1st version
 50                                                    55 
 51 #ifndef G4PAIXSECTION_HH                           56 #ifndef G4PAIXSECTION_HH
 52 #define G4PAIXSECTION_HH                           57 #define G4PAIXSECTION_HH
 53                                                    58 
 54 #include "G4ios.hh"                                59 #include "G4ios.hh"
 55 #include "globals.hh"                              60 #include "globals.hh"
 56 #include "Randomize.hh"                            61 #include "Randomize.hh"
 57                                                    62 
 58 #include "G4SandiaTable.hh"                    <<  63 #include"G4SandiaTable.hh"
 59                                                    64 
 60 class G4MaterialCutsCouple;                        65 class G4MaterialCutsCouple;
 61 class G4Sandiatable;                               66 class G4Sandiatable;
 62                                                    67 
 63                                                    68 
 64 class G4PAIxSection                                69 class G4PAIxSection
 65 {                                                  70 {
 66 public:                                            71 public:
 67     // Constructors                                72     // Constructors
 68   G4PAIxSection();                             << 
 69   G4PAIxSection( G4MaterialCutsCouple* matCC);     73   G4PAIxSection( G4MaterialCutsCouple* matCC);
 70                                                    74     
 71   G4PAIxSection( G4int materialIndex, G4double <<  75   G4PAIxSection( G4int materialIndex,
                                                   >>  76                    G4double maxEnergyTransfer   );
 72                                                    77     
 73   G4PAIxSection( G4int materialIndex,              78   G4PAIxSection( G4int materialIndex,           // for proton loss table
 74              G4double maxEnergyTransfer,           79              G4double maxEnergyTransfer,
 75              G4double betaGammaSq ,                80              G4double betaGammaSq ,
 76                          G4double** photoAbsCo     81                          G4double** photoAbsCof, G4int intNumber         );
 77                                                    82 
 78   G4PAIxSection( G4int materialIndex,              83   G4PAIxSection( G4int materialIndex,           // test constructor
 79              G4double maxEnergyTransfer,           84              G4double maxEnergyTransfer,
 80              G4double betaGammaSq          );      85              G4double betaGammaSq          );
 81                                                    86     
 82   ~G4PAIxSection();                            <<  87     // G4PAIxSection(const G4PAIxSection& right);
 83                                                << 
 84   void Initialize(const G4Material* material,  << 
 85       G4double betaGammaSq, G4SandiaTable*);   << 
 86                                                    88     
 87   // General control functions                 <<  89     // Destructor
 88                                                <<  90     
 89   void     ComputeLowEnergyCof(const G4Materia <<  91           ~G4PAIxSection();
 90   void     ComputeLowEnergyCof();              <<  92     
                                                   >>  93     // Operators
                                                   >>  94           // G4PAIxSection& operator=(const G4PAIxSection& right);
                                                   >>  95           // G4int operator==(const G4PAIxSection& right)const;
                                                   >>  96           // G4int operator!=(const G4PAIxSection& right)const;
                                                   >>  97     
                                                   >>  98     // Methods
                                                   >>  99     
                                                   >> 100     // General control functions
 91                                                   101           
 92   void InitPAI();                              << 102     void InitPAI();
 93                                                   103 
 94   void NormShift( G4double betaGammaSq );      << 104           void NormShift( G4double betaGammaSq );
 95                                                   105 
 96   void SplainPAI( G4double betaGammaSq );      << 106           void SplainPAI( G4double betaGammaSq );
 97                                                   107         
 98   // Physical methods                          << 108     // Physical methods
 99                                                   109           
100   G4double RutherfordIntegral( G4int intervalN << 110 
101              G4double limitLow,                << 111           G4double RutherfordIntegral( G4int intervalNumber,
102              G4double limitHigh );             << 112                                  G4double limitLow,
103                                                << 113                G4double limitHigh     );
104   G4double ImPartDielectricConst( G4int interv << 114 
105           G4double energy );                   << 115           G4double ImPartDielectricConst( G4int intervalNumber,
106                                                << 116                                     G4double energy        );
107   G4double GetPhotonRange( G4double energy );  << 117 
108   G4double GetElectronRange( G4double energy ) << 118           G4double GetPhotonRange( G4double energy );
109                                                << 119           G4double GetElectronRange( G4double energy );
110   G4double RePartDielectricConst(G4double ener << 120 
111                                                << 121           G4double RePartDielectricConst(G4double energy);
112   G4double DifPAIxSection( G4int intervalNumbe << 122 
113          G4double betaGammaSq );               << 123           G4double DifPAIxSection( G4int intervalNumber,
114                                                << 124                              G4double betaGammaSq    );
115   G4double PAIdNdxCerenkov( G4int intervalNumb << 125 
116           G4double betaGammaSq );              << 126           G4double PAIdNdxCerenkov( G4int intervalNumber,
117   G4double PAIdNdxMM( G4int intervalNumber,    << 127                              G4double betaGammaSq    );
118           G4double betaGammaSq );              << 128           G4double PAIdNdxMM( G4int intervalNumber,
119                                                << 129                              G4double betaGammaSq    );
120   G4double PAIdNdxPlasmon( G4int intervalNumbe << 130 
121          G4double betaGammaSq );               << 131           G4double PAIdNdxPlasmon( G4int intervalNumber,
122                                                << 132                              G4double betaGammaSq    );
123   G4double PAIdNdxResonance( G4int intervalNum << 133 
124            G4double betaGammaSq );             << 134           G4double PAIdNdxResonance( G4int intervalNumber,
125                                                << 135                              G4double betaGammaSq    );
126                                                << 136 
127   void     IntegralPAIxSection();              << 137     void     IntegralPAIxSection();
128   void     IntegralCerenkov();                 << 138     void     IntegralCerenkov();
129   void     IntegralMM();                       << 139     void     IntegralMM();
130   void     IntegralPlasmon();                  << 140     void     IntegralPlasmon();
131   void     IntegralResonance();                << 141     void     IntegralResonance();
132                                                << 142 
133   G4double SumOverInterval(G4int intervalNumbe << 143           G4double SumOverInterval(G4int intervalNumber);
134   G4double SumOverIntervaldEdx(G4int intervalN << 144           G4double SumOverIntervaldEdx(G4int intervalNumber);
135   G4double SumOverInterCerenkov(G4int interval << 145           G4double SumOverInterCerenkov(G4int intervalNumber);
136   G4double SumOverInterMM(G4int intervalNumber << 146           G4double SumOverInterMM(G4int intervalNumber);
137   G4double SumOverInterPlasmon(G4int intervalN << 147           G4double SumOverInterPlasmon(G4int intervalNumber);
138   G4double SumOverInterResonance(G4int interva << 148           G4double SumOverInterResonance(G4int intervalNumber);
139                                                << 149 
140   G4double SumOverBorder( G4int intervalNumber << 150           G4double SumOverBorder( G4int intervalNumber,
141         G4double energy          );            << 151                             G4double energy          );
142   G4double SumOverBorderdEdx( G4int intervalNu << 152           G4double SumOverBorderdEdx( G4int intervalNumber,
143             G4double energy          );        << 153                             G4double energy          );
144   G4double SumOverBordCerenkov( G4int interval << 154           G4double SumOverBordCerenkov( G4int intervalNumber,
145         G4double energy          );            << 155                                   G4double energy          );
146   G4double SumOverBordMM( G4int intervalNumber << 156           G4double SumOverBordMM( G4int intervalNumber,
147         G4double energy          );            << 157                                   G4double energy          );
148   G4double SumOverBordPlasmon( G4int intervalN << 158           G4double SumOverBordPlasmon( G4int intervalNumber,
149              G4double energy          );       << 159                                  G4double energy          );
150   G4double SumOverBordResonance( G4int interva << 160           G4double SumOverBordResonance( G4int intervalNumber,
151          G4double energy          );           << 161                                  G4double energy          );
152                                                << 162 
153   G4double GetStepEnergyLoss( G4double step ); << 163           G4double GetStepEnergyLoss( G4double step );
154   G4double GetStepCerenkovLoss( G4double step  << 164           G4double GetStepCerenkovLoss( G4double step );
155   G4double GetStepMMLoss( G4double step );     << 165           G4double GetStepMMLoss( G4double step );
156   G4double GetStepPlasmonLoss( G4double step ) << 166           G4double GetStepPlasmonLoss( G4double step );
157   G4double GetStepResonanceLoss( G4double step << 167           G4double GetStepResonanceLoss( G4double step );
158                                                   168    
159   G4double GetEnergyTransfer();                << 169           G4double GetEnergyTransfer();
160   G4double GetCerenkovEnergyTransfer();        << 170           G4double GetCerenkovEnergyTransfer();
161   G4double GetMMEnergyTransfer();              << 171           G4double GetMMEnergyTransfer();
162   G4double GetPlasmonEnergyTransfer();         << 172           G4double GetPlasmonEnergyTransfer();
163   G4double GetResonanceEnergyTransfer();       << 173           G4double GetResonanceEnergyTransfer();
164   G4double GetRutherfordEnergyTransfer();      << 174           G4double GetRutherfordEnergyTransfer();
165                                                   175    
166   // Inline access functions                   << 176     // Inline access functions
167                                                   177 
168   G4int GetNumberOfGammas() const { return fNu << 178     G4int GetNumberOfGammas() const { return fNumberOfGammas; }
169                                                   179     
170   G4int GetSplineSize() const { return fSpline << 180           G4int GetSplineSize() const { return fSplineNumber; }
171                                                   181     
172   G4int GetIntervalNumber() const { return fIn << 182           G4int GetIntervalNumber() const { return fIntervalNumber; }
173                                                   183 
174   G4double GetEnergyInterval(G4int i){ return  << 184           G4double GetEnergyInterval(G4int i){ return fEnergyInterval[i]; } 
175                                                   185 
176   G4double GetDifPAIxSection(G4int i){ return  << 186           G4double GetDifPAIxSection(G4int i){ return fDifPAIxSection[i]; } 
177   G4double GetPAIdNdxCerenkov(G4int i){ return << 187           G4double GetPAIdNdxCerenkov(G4int i){ return fdNdxCerenkov[i]; } 
178   G4double GetPAIdNdxMM(G4int i){ return fdNdx << 188           G4double GetPAIdNdxMM(G4int i){ return fdNdxMM[i]; } 
179   G4double GetPAIdNdxPlasmon(G4int i){ return  << 189           G4double GetPAIdNdxPlasmon(G4int i){ return fdNdxPlasmon[i]; } 
180   G4double GetPAIdNdxResonance(G4int i){ retur << 190           G4double GetPAIdNdxResonance(G4int i){ return fdNdxResonance[i]; } 
181                                                   191     
182   G4double GetMeanEnergyLoss() const {return f << 192     G4double GetMeanEnergyLoss() const {return fIntegralPAIxSection[0]; }
183   G4double GetMeanCerenkovLoss() const {return << 193     G4double GetMeanCerenkovLoss() const {return fIntegralCerenkov[0]; }
184   G4double GetMeanMMLoss() const {return fInte << 194     G4double GetMeanMMLoss() const {return fIntegralMM[0]; }
185   G4double GetMeanPlasmonLoss() const {return  << 195     G4double GetMeanPlasmonLoss() const {return fIntegralPlasmon[0]; }
186   G4double GetMeanResonanceLoss() const {retur << 196     G4double GetMeanResonanceLoss() const {return fIntegralResonance[0]; }
187                                                << 
188   G4double GetNormalizationCof() const { retur << 
189                                                   197 
190   G4double GetLowEnergyCof() const { return fL << 198     G4double GetNormalizationCof() const { return fNormalizationCof; }
191                                                << 199           
192   G4double GetLorentzFactor(G4int i) const;    << 200     inline G4double GetPAItable(G4int i,G4int j) const;
193                                                   201 
194   inline void SetVerbose(G4int v) { fVerbose=v << 202           inline G4double GetLorentzFactor(G4int i) const;
195                                                << 203         
196                                                << 204     inline G4double GetSplineEnergy(G4int i) const;
197   inline G4double GetPAItable(G4int i,G4int j) << 
198                                                << 
199   inline G4double GetSplineEnergy(G4int i) con << 
200                                                   205     
201   inline G4double GetIntegralPAIxSection(G4int << 206     inline G4double GetIntegralPAIxSection(G4int i) const;
202   inline G4double GetIntegralPAIdEdx(G4int i)  << 207     inline G4double GetIntegralPAIdEdx(G4int i) const;
203   inline G4double GetIntegralCerenkov(G4int i) << 208     inline G4double GetIntegralCerenkov(G4int i) const;
204   inline G4double GetIntegralMM(G4int i) const << 209     inline G4double GetIntegralMM(G4int i) const;
205   inline G4double GetIntegralPlasmon(G4int i)  << 210     inline G4double GetIntegralPlasmon(G4int i) const;
206   inline G4double GetIntegralResonance(G4int i << 211     inline G4double GetIntegralResonance(G4int i) const;
207                                                   212 
208   G4PAIxSection & operator=(const G4PAIxSectio << 213 protected :
209   G4PAIxSection(const G4PAIxSection&) = delete << 
210                                                   214 
211 private :                                         215 private :
212                                                   216 
213   void CallError(G4int i, const G4String& meth << 217 // Local class constants
214                                                << 
215   // Local class constants                     << 
216                                                   218  
217   static const G4double fDelta; // energy shif << 219 static const G4double fDelta; // energy shift from interval border = 0.001
218   static const G4double fError; // error in li << 220 static const G4double fError; // error in lin-log approximation = 0.005
219                                                   221 
220   static G4int fNumberOfGammas; // = 111;      << 222 static       G4int fNumberOfGammas;         // = 111;
221   static const G4double fLorentzFactor[112]; / << 223 static const G4double fLorentzFactor[112];  //  static gamma array
222                                                   224 
223   static                                       << 225 static 
224   const G4int fRefGammaNumber; // The number o << 226 const G4int fRefGammaNumber ; // The number of gamma for creation of spline (15)
225                                                   227 
226   G4int    fIntervalNumber ;   // The number o << 228 G4int    fIntervalNumber ;    //  The number of energy intervals
227   G4double fNormalizationCof;  // Normalizatio << 229 G4double fNormalizationCof;   // Normalization cof for PhotoAbsorptionXsection
228                                                << 
229   G4int fMaterialIndex;      // current materi << 
230   G4double fDensity;         // Current densit << 
231   G4double fElectronDensity; // Current electr << 
232   G4double fLowEnergyCof;    // Correction cof << 
233   G4int    fSplineNumber;    // Current size o << 
234   G4int    fVerbose;         // verbose flag   << 
235                                                   230 
236   // Arrays of Sandia coefficients             << 231 // G4double fBetaGammaSq;        // (beta*gamma)^2
237                                                   232 
238   G4OrderedTable* fMatSandiaMatrix;            << 233   G4int fMaterialIndex;  // current material index
                                                   >> 234   G4double fDensity;            // Current density
                                                   >> 235   G4double fElectronDensity;    // Current electron (number) density
                                                   >> 236   G4int    fSplineNumber;       // Current size of spline
                                                   >> 237 
                                                   >> 238 // Arrays of Sandia coefficients
239                                                   239 
                                                   >> 240   G4OrderedTable* fMatSandiaMatrix;
240   G4SandiaTable*  fSandia;                        241   G4SandiaTable*  fSandia;
241                                                   242 
242   G4DataVector fEnergyInterval;                << 243 G4double* fEnergyInterval;
243   G4DataVector fA1;                            << 244 G4double* fA1; 
244   G4DataVector fA2;                            << 245 G4double* fA2;
245   G4DataVector fA3;                            << 246 G4double* fA3; 
246   G4DataVector fA4;                            << 247 G4double* fA4;
247                                                << 248 
248   static                                       << 249 static
249   const G4int  fMaxSplineSize ; // Max size of << 250 const G4int   fMaxSplineSize ;          // Max size of output splain arrays = 500
250                                                << 251 
251   G4DataVector          fSplineEnergy;     //  << 252 /* ******************
252   G4DataVector   fRePartDielectricConst;   //  << 253 G4double*          fSplineEnergy;   // energy points of splain
253   G4DataVector   fImPartDielectricConst;   //  << 254 G4double* fRePartDielectricConst;   // Real part of dielectric const
254   G4DataVector            fIntegralTerm;   //  << 255 G4double* fImPartDielectricConst;   // Imaginary part of dielectric const
255   G4DataVector          fDifPAIxSection;   //  << 256 G4double*          fIntegralTerm;   // Integral term in PAI cross section
256   G4DataVector            fdNdxCerenkov;   //  << 257 G4double*        fDifPAIxSection;   // Differential PAI cross section
257   G4DataVector            fdNdxPlasmon;    //  << 258 G4double*   fIntegralPAIxSection;   // Integral PAI cross section  ?
258   G4DataVector            fdNdxMM;         //  << 259 */ ///////////////
259   G4DataVector            fdNdxResonance;  //  << 260 
260                                                << 261 
261   G4DataVector     fIntegralPAIxSection;   //  << 262 G4double          fSplineEnergy[500];   // energy points of splain
262   G4DataVector     fIntegralPAIdEdx;       //  << 263 G4double fRePartDielectricConst[500];   // Real part of dielectric const
263   G4DataVector     fIntegralCerenkov;      //  << 264 G4double fImPartDielectricConst[500];   // Imaginary part of dielectric const
264   G4DataVector     fIntegralPlasmon;       //  << 265 G4double          fIntegralTerm[500];   // Integral term in PAI cross section
265   G4DataVector     fIntegralMM;            //  << 266 G4double        fDifPAIxSection[500];   // Differential PAI cross section
266   G4DataVector     fIntegralResonance;     //  << 267 G4double          fdNdxCerenkov[500];   // dNdx of Cerenkov collisions
                                                   >> 268 G4double          fdNdxMM[500];   // dNdx of MM-Cerenkov collisions
                                                   >> 269 G4double          fdNdxPlasmon[500];   // dNdx of Plasmon collisions
                                                   >> 270 G4double          fdNdxResonance[500];   // dNdx of resonance collisions
                                                   >> 271 
                                                   >> 272 G4double   fIntegralPAIxSection[500];   // Integral PAI cross section  ?
                                                   >> 273 G4double   fIntegralPAIdEdx[500];   // Integral PAI dEdx  ?
                                                   >> 274 G4double   fIntegralCerenkov[500];   // Integral Cerenkov N>omega  ?
                                                   >> 275 G4double   fIntegralMM[500];   // Integral MM-Cerenkov N>omega  ?
                                                   >> 276 G4double   fIntegralPlasmon[500];   // Integral Plasmon N>omega  ?
                                                   >> 277 G4double   fIntegralResonance[500];   // Integral resonance N>omega  ?
267                                                   278 
268   G4double fPAItable[500][112]; // Output arra << 279 G4double fPAItable[500][112]; // Output array
269                                                   280 
270 };                                                281 };    
271                                                   282 
272 ////////////////  Inline methods /////////////    283 ////////////////  Inline methods //////////////////////////////////
273 //                                                284 //
274                                                   285 
                                                   >> 286 
275 inline G4double G4PAIxSection::GetPAItable(G4i    287 inline G4double G4PAIxSection::GetPAItable(G4int i, G4int j) const
276 {                                                 288 {
277    return fPAItable[i][j];                        289    return fPAItable[i][j];
278 }                                                 290 }
279                                                   291 
                                                   >> 292 inline G4double G4PAIxSection::GetLorentzFactor(G4int j) const
                                                   >> 293 {
                                                   >> 294    return fLorentzFactor[j];
                                                   >> 295 }
                                                   >> 296 
280 inline G4double G4PAIxSection::GetSplineEnergy    297 inline G4double G4PAIxSection::GetSplineEnergy(G4int i) const 
281 {                                                 298 {
282   if(i < 1 || i > fSplineNumber) { CallError(i << 299    if(i < 1 || i > fSplineNumber)
283   return fSplineEnergy[i];                     << 300    {
                                                   >> 301       G4Exception("Invalid argument in G4PAIxSection::GetSplineEnergy");
                                                   >> 302    }
                                                   >> 303    return fSplineEnergy[i];
284 }                                                 304 }
285                                                   305     
286 inline G4double G4PAIxSection::GetIntegralPAIx    306 inline G4double G4PAIxSection::GetIntegralPAIxSection(G4int i) const 
287 {                                                 307 {
288   if(i < 1 || i > fSplineNumber) { CallError(i << 308    if(i < 1 || i > fSplineNumber)
289   return fIntegralPAIxSection[i];              << 309    {
                                                   >> 310     G4Exception("Invalid argument in G4PAIxSection::GetIntegralPAIxSection");
                                                   >> 311    }
                                                   >> 312    return fIntegralPAIxSection[i];
290 }                                                 313 }
291                                                   314 
292 inline G4double G4PAIxSection::GetIntegralPAId    315 inline G4double G4PAIxSection::GetIntegralPAIdEdx(G4int i) const 
293 {                                                 316 {
294   if(i < 1 || i > fSplineNumber) { CallError(i << 317    if(i < 1 || i > fSplineNumber)
295   return fIntegralPAIdEdx[i];                  << 318    {
                                                   >> 319     G4Exception("Invalid argument in G4PAIxSection::GetIntegralPAIxSection");
                                                   >> 320    }
                                                   >> 321    return fIntegralPAIdEdx[i];
296 }                                                 322 }
297                                                   323 
298 inline G4double G4PAIxSection::GetIntegralCere    324 inline G4double G4PAIxSection::GetIntegralCerenkov(G4int i) const 
299 {                                                 325 {
300   if(i < 1 || i > fSplineNumber) { CallError(i << 326    if(i < 1 || i > fSplineNumber)
301   return fIntegralCerenkov[i];                 << 327    {
                                                   >> 328     G4Exception("Invalid argument in G4PAIxSection::GetIntegralCerenkov");
                                                   >> 329    }
                                                   >> 330    return fIntegralCerenkov[i];
302 }                                                 331 }
303                                                   332 
304 inline G4double G4PAIxSection::GetIntegralMM(G    333 inline G4double G4PAIxSection::GetIntegralMM(G4int i) const 
305 {                                                 334 {
306   if(i < 1 || i > fSplineNumber) { CallError(i << 335    if(i < 1 || i > fSplineNumber)
307   return fIntegralMM[i];                       << 336    {
                                                   >> 337     G4Exception("Invalid argument in G4PAIxSection::GetIntegralMM");
                                                   >> 338    }
                                                   >> 339    return fIntegralMM[i];
308 }                                                 340 }
309                                                   341 
310 inline G4double G4PAIxSection::GetIntegralPlas    342 inline G4double G4PAIxSection::GetIntegralPlasmon(G4int i) const 
311 {                                                 343 {
312   if(i < 1 || i > fSplineNumber) { CallError(i << 344    if(i < 1 || i > fSplineNumber)
313   return fIntegralPlasmon[i];                  << 345    {
                                                   >> 346     G4Exception("Invalid argument in G4PAIxSection::GetIntegralPlasmon");
                                                   >> 347    }
                                                   >> 348    return fIntegralPlasmon[i];
314 }                                                 349 }
315                                                   350 
316 inline G4double G4PAIxSection::GetIntegralReso    351 inline G4double G4PAIxSection::GetIntegralResonance(G4int i) const 
317 {                                                 352 {
318   if(i < 1 || i > fSplineNumber) { CallError(i << 353    if(i < 1 || i > fSplineNumber)
319   return fIntegralResonance[i];                << 354    {
                                                   >> 355     G4Exception("Invalid argument in G4PAIxSection::GetIntegralResonance");
                                                   >> 356    }
                                                   >> 357    return fIntegralResonance[i];
320 }                                                 358 }
321                                                   359 
322 #endif                                            360 #endif   
323                                                   361 
324 // -----------------   end of G4PAIxSection he    362 // -----------------   end of G4PAIxSection header file    -------------------
325                                                   363