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Geant4/processes/hadronic/cross_sections/src/G4ChipsProtonInelasticXS.cc

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Diff markup

Differences between /processes/hadronic/cross_sections/src/G4ChipsProtonInelasticXS.cc (Version 11.3.0) and /processes/hadronic/cross_sections/src/G4ChipsProtonInelasticXS.cc (Version 1.1)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26 //                                                
 27 // The lust update: M.V. Kossov, CERN/ITEP(Mos    
 28 //                                                
 29 //                                                
 30 // G4 Physics class: G4ChipsProtonInelasticXS     
 31 // Created: M.V. Kossov, CERN/ITEP(Moscow), 20    
 32 // The last update: M.V. Kossov, CERN/ITEP (Mo    
 33 //                                                
 34 //                                                
 35 // *******************************************    
 36 // Short description: Cross-sections extracted    
 37 // proton-nuclear  interactions. Original auth    
 38 // -------------------------------------------    
 39 //                                                
 40                                                   
 41                                                   
 42 #include "G4ChipsProtonInelasticXS.hh"            
 43 #include "G4SystemOfUnits.hh"                     
 44 #include "G4DynamicParticle.hh"                   
 45 #include "G4ParticleDefinition.hh"                
 46 #include "G4Proton.hh"                            
 47 #include "G4Log.hh"                               
 48 #include "G4Exp.hh"                               
 49 #include "G4Pow.hh"                               
 50                                                   
 51                                                   
 52 // factory                                        
 53 #include "G4CrossSectionFactory.hh"               
 54 //                                                
 55 G4_DECLARE_XS_FACTORY(G4ChipsProtonInelasticXS    
 56                                                   
 57 G4ChipsProtonInelasticXS::G4ChipsProtonInelast    
 58 {                                                 
 59   // Initialization of the                        
 60   lastLEN=0; // Pointer to the lastArray of Lo    
 61   lastHEN=0; // Pointer to the lastArray of Hi    
 62   lastN=0;   // The last N of calculated nucle    
 63   lastZ=0;   // The last Z of calculated nucle    
 64   lastP=0.;  // Last used in cross section Mom    
 65   lastTH=0.; // Last threshold momentum           
 66   lastCS=0.; // Last value of the Cross Sectio    
 67   lastI=0;   // The last position in the DAMDB    
 68                                                   
 69   LEN = new std::vector<G4double*>;               
 70   HEN = new std::vector<G4double*>;               
 71 }                                                 
 72                                                   
 73 G4ChipsProtonInelasticXS::~G4ChipsProtonInelas    
 74 {                                                 
 75   std::size_t lens=LEN->size();                   
 76   for(std::size_t i=0; i<lens; ++i) delete[] (    
 77   delete LEN;                                     
 78   std::size_t hens=HEN->size();                   
 79   for(std::size_t i=0; i<hens; ++i) delete[] (    
 80   delete HEN;                                     
 81 }                                                 
 82                                                   
 83 void                                              
 84 G4ChipsProtonInelasticXS::CrossSectionDescript    
 85 {                                                 
 86     outFile << "G4ChipsProtonInelasticXS provi    
 87             << "section for proton nucleus sca    
 88             << "momentum. The cross section is    
 89             << "CHIPS parameterization of cros    
 90 }                                                 
 91                                                   
 92 G4bool G4ChipsProtonInelasticXS::IsIsoApplicab    
 93          const G4Element*,                        
 94          const G4Material*)                       
 95 {                                                 
 96   return true;                                    
 97 }                                                 
 98                                                   
 99                                                   
100 // The main member function giving the collisi    
101 // Make pMom in independent units ! (Now it is    
102 G4double G4ChipsProtonInelasticXS::GetIsoCross    
103                                                   
104                                                   
105                                                   
106 {                                                 
107   G4double pMom=Pt->GetTotalMomentum();           
108   G4int tgN = A - tgZ;                            
109                                                   
110   return GetChipsCrossSection(pMom, tgZ, tgN,     
111 }                                                 
112                                                   
113 G4double G4ChipsProtonInelasticXS::GetChipsCro    
114 {                                                 
115                                                   
116   G4bool in=false;                     // By d    
117   if(tgN!=lastN || tgZ!=lastZ)         // The     
118   {                                               
119     in      = false;                   // By d    
120     lastP   = 0.;                      // New     
121     lastN   = tgN;                     // The     
122     lastZ   = tgZ;                     // The     
123     lastI   = (G4int)colN.size();      // Size    
124     j  = 0;                            // A#0f    
125     if(lastI) for(G4int i=0; i<lastI; ++i) //     
126     {                                             
127       if(colN[i]==tgN && colZ[i]==tgZ) // Try     
128       {                                           
129         lastI=i;                       // Reme    
130         lastTH =colTH[i];              // The     
131         if(pMom<=lastTH)                          
132         {                                         
133           return 0.;                   // Ener    
134         }                                         
135         lastP  =colP [i];              // Last    
136         lastCS =colCS[i];              // Last    
137         in = true;                     // This    
138         // Momentum pMom is in IU ! @@ Units      
139         lastCS=CalculateCrossSection(-1,j,2212    
140         if(lastCS<=0. && pMom>lastTH)  // Corr    
141         {                                         
142           lastCS=0.;                              
143           lastTH=pMom;                            
144         }                                         
145         break;                         // Go o    
146       }                                           
147       j++;                             // Incr    
148     }                                             
149     if(!in)                            // This    
150     {                                             
151       //!!The slave functions must provide cro    
152       lastCS=CalculateCrossSection(0,j,2212,la    
153       //if(lastCS>0.)                   // It     
154       //{                                         
155                                                   
156       lastTH = 0; //ThresholdEnergy(tgZ, tgN);    
157         colN.push_back(tgN);                      
158         colZ.push_back(tgZ);                      
159         colP.push_back(pMom);                     
160         colTH.push_back(lastTH);                  
161         colCS.push_back(lastCS);                  
162   //} // M.K. Presence of H1 with high thresho    
163       return lastCS*millibarn;                    
164     } // End of creation of the new set of par    
165     else                                          
166     {                                             
167       colP[lastI]=pMom;                           
168       colCS[lastI]=lastCS;                        
169     }                                             
170   } // End of parameters udate                    
171   else if(pMom<=lastTH)                           
172   {                                               
173     return 0.;                         // Mome    
174   }                                               
175   else                                 // It i    
176   {                                               
177     lastCS=CalculateCrossSection(1,j,2212,last    
178     lastP=pMom;                                   
179   }                                               
180   return lastCS*millibarn;                        
181 }                                                 
182                                                   
183 // The main member function giving the gamma-A    
184 G4double G4ChipsProtonInelasticXS::CalculateCr    
185                                         G4int,    
186 {                                                 
187   static const G4double THmin=27.;     // defa    
188   static const G4double THmiG=THmin*.001; // m    
189   static const G4double dP=10.;        // step    
190   static const G4double dPG=dP*.001;   // step    
191   static const G4int    nL=105;        // A#of    
192   static const G4double Pmin=THmin+(nL-1)*dP;     
193   static const G4double Pmax=227000.;  // maxP    
194   static const G4int    nH=224;        // A#of    
195   static const G4double milP=G4Log(Pmin);// Lo    
196   static const G4double malP=G4Log(Pmax);// Hi    
197   static const G4double dlP=(malP-milP)/(nH-1)    
198   static const G4double milPG=G4Log(.001*Pmin)    
199   if(F<=0)                             // This    
200   {                                               
201     if(F<0)                            // This    
202     {                                             
203       G4int sync=(G4int)LEN->size();              
204       if(sync<=I) G4cout<<"*!*G4QProtonNuclCS:    
205       lastLEN=(*LEN)[I];               // Poin    
206       lastHEN=(*HEN)[I];               // Poin    
207     }                                             
208     else                               // This    
209     {                                             
210       lastLEN = new G4double[nL];      // Allo    
211       lastHEN = new G4double[nH];      // Allo    
212       // --- Instead of making a separate func    
213       G4double P=THmiG;                // Tabl    
214       for(G4int k=0; k<nL; ++k)                   
215       {                                           
216         lastLEN[k] = CrossSectionLin(targZ, ta    
217         P+=dPG;                                   
218       }                                           
219       G4double lP=milPG;                          
220       for(G4int n=0; n<nH; ++n)                   
221       {                                           
222         lastHEN[n] = CrossSectionLog(targZ, ta    
223         lP+=dlP;                                  
224       }                                           
225       // --- End of possible separate function    
226       // *** The synchronization check ***        
227       G4int sync=(G4int)LEN->size();              
228       if(sync!=I)                                 
229       {                                           
230         G4cout<<"***G4ChipsProtonNuclCS::CalcC    
231               <<", N="<<targN<<", F="<<F<<G4en    
232         //G4Exception("G4ProtonNuclearCS::Calc    
233       }                                           
234       LEN->push_back(lastLEN);          // rem    
235       HEN->push_back(lastHEN);          // rem    
236     } // End of creation of the new set of par    
237   } // End of parameters udate                    
238   // =------------------= NOW the Magic Formul    
239   G4double sigma;                                 
240   if (Momentum<lastTH) return 0.;      // It m    
241   else if (Momentum<Pmin)              // High    
242   {                                               
243     sigma=EquLinearFit(Momentum,nL,THmin,dP,la    
244   }                                               
245   else if (Momentum<Pmax)              // High    
246   {                                               
247     G4double lP=G4Log(Momentum);                  
248     sigma=EquLinearFit(lP,nH,milP,dlP,lastHEN)    
249   }                                               
250   else                                 // UHE     
251   {                                               
252     G4double P=0.001*Momentum;         // Appr    
253     sigma=CrossSectionFormula(targZ, targN, P,    
254   }                                               
255   if(sigma<0.) return 0.;                         
256   return sigma;                                   
257 }                                                 
258                                                   
259 // Electromagnetic momentum-threshold (in MeV/    
260 G4double G4ChipsProtonInelasticXS::ThresholdMo    
261 {                                                 
262   static const G4double third=1./3.;              
263   static const G4double pM = G4Proton::Proton(    
264   static const G4double tpM= pM+pM;       // D    
265                                                   
266   G4double tA=tZ+tN;                              
267   if(tZ<.99 || tN<0.) return 0.;                  
268   else if(tZ==1 && tN==0) return 800.;    // A    
269   //G4double dE=1.263*tZ/(1.+G4Pow::GetInstanc    
270   G4double dE=tZ/(1.+G4Pow::GetInstance()->pow    
271   G4double tM=931.5*tA;                           
272   G4double T=dE+dE*(dE/2+pM)/tM;                  
273   return std::sqrt(T*(tpM+T));                    
274 }                                                 
275                                                   
276 // Calculation formula for proton-nuclear inel    
277 G4double G4ChipsProtonInelasticXS::CrossSectio    
278 {                                                 
279   G4double sigma=0.;                              
280   if(P<ThresholdMomentum(tZ,tN)*.001) return s    
281   G4double lP=G4Log(P);                           
282   if(tZ==1&&!tN){if(P>.35) sigma=CrossSectionF    
283   else if(tZ<97 && tN<152)                // G    
284   {                                               
285     G4double pex=0.;                              
286     G4double pos=0.;                              
287     G4double wid=1.;                              
288     if(tZ==13 && tN==14)                  // E    
289     {                                             
290       pex=230.;                                   
291       pos=.13;                                    
292       wid=8.e-5;                                  
293     }                                             
294     else if(tZ<7)                                 
295     {                                             
296       if(tZ==6 && tN==6)                          
297       {                                           
298         pex=320.;                                 
299         pos=.14;                                  
300         wid=7.e-6;                                
301       }                                           
302       else if(tZ==5 && tN==6)                     
303       {                                           
304         pex=270.;                                 
305         pos=.17;                                  
306         wid=.002;                                 
307       }                                           
308       else if(tZ==4 && tN==5)                     
309       {                                           
310         pex=600.;                                 
311         pos=.132;                                 
312         wid=.005;                                 
313       }                                           
314       else if(tZ==3 && tN==4)                     
315       {                                           
316         pex=280.;                                 
317         pos=.19;                                  
318         wid=.0025;                                
319       }                                           
320       else if(tZ==3 && tN==3)                     
321       {                                           
322         pex=370.;                                 
323         pos=.171;                                 
324         wid=.006;                                 
325       }                                           
326       else if(tZ==2 && tN==1)                     
327       {                                           
328         pex=30.;                                  
329         pos=.22;                                  
330         wid=.0005;                                
331       }                                           
332     }                                             
333     sigma=CrossSectionFormula(tZ,tN,P,lP);        
334     if(pex>0.)                                    
335     {                                             
336       G4double dp=P-pos;                          
337       sigma+=pex*G4Exp(-dp*dp/wid);               
338     }                                             
339   }                                               
340   else                                            
341   {                                               
342     G4cerr<<"-Warning-G4ChipsProtonNuclearXS::    
343     sigma=0.;                                     
344   }                                               
345   if(sigma<0.) return 0.;                         
346   return sigma;                                   
347 }                                                 
348                                                   
349 // Calculation formula for proton-nuclear inel    
350 G4double G4ChipsProtonInelasticXS::CrossSectio    
351 {                                                 
352   G4double P=G4Exp(lP);                           
353   return CrossSectionFormula(tZ, tN, P, lP);      
354 }                                                 
355 // Calculation formula for proton-nuclear inel    
356 G4double G4ChipsProtonInelasticXS::CrossSectio    
357                                                   
358 {                                                 
359   G4double sigma=0.;                              
360   if(tZ==1 && !tN)                        // p    
361   {                                               
362     G4double El(0.),To(0.);               // U    
363     if(P<0.1)                             // C    
364     {                                             
365       G4double p2=P*P;                            
366       El=1./(0.00012+p2*0.2);                     
367       To=El;                                      
368     }                                             
369     else if(P>1000.)                              
370     {                                             
371       G4double lp=G4Log(P)-3.5;                   
372       G4double lp2=lp*lp;                         
373       El=0.0557*lp2+6.72;                         
374       To=0.3*lp2+38.2;                            
375     }                                             
376     else                                          
377     {                                             
378       G4double p2=P*P;                            
379       G4double LE=1./(0.00012+p2*0.2);            
380       G4double lp=G4Log(P)-3.5;                   
381       G4double lp2=lp*lp;                         
382       G4double rp2=1./p2;                         
383       El=LE+(0.0557*lp2+6.72+32.6/P)/(1.+rp2/P    
384       To=LE+(0.3   *lp2+38.2+52.7*rp2)/(1.+2.7    
385     }                                   // Cop    
386                                                   
387 /*                                                
388     G4double p2=P*P;                              
389     G4double lp=lP-3.5;                           
390     G4double lp2=lp*lp;                           
391     G4double rp2=1./p2;                           
392     G4double El=(.0557*lp2+6.72+30./P)/(1.+.49    
393     G4double To=(.3*lp2+38.2)/(1.+.54*rp2*rp2)    
394 */                                                
395                                                   
396     sigma=To-El;                                  
397   }                                               
398   else if(tZ<97 && tN<152)                // G    
399   {                                               
400     //G4double lP=G4Log(P);            // Alre    
401     G4double d=lP-4.2;                            
402     G4double p2=P*P;                              
403     G4double p4=p2*p2;                            
404     G4double a=tN+tZ;                       //    
405     G4double al=G4Log(a);                         
406     G4double sa=std::sqrt(a);                     
407     G4double a2=a*a;                              
408     G4double a2s=a2*sa;                           
409     G4double a4=a2*a2;                            
410     G4double a8=a4*a4;                            
411     G4double a12=a8*a4;                           
412     G4double a16=a8*a8;                           
413     G4double c=(170.+3600./a2s)/(1.+65./a2s);     
414     G4double dl=al-3.;                            
415     G4double dl2=dl*dl;                           
416     G4double r=.21+.62*dl2/(1.+.5*dl2);           
417     G4double gg=40.*G4Exp(al*0.712)/(1.+12.2/a    
418     G4double e=318.+a4/(1.+.0015*a4/G4Exp(al*0    
419                8.e-18/(1./a16+1.3e-20)/(1.+1.e    
420     G4double ss=3.57+.009*a2/(1.+.0001*a2*a);     
421     G4double h=(.01/a4+2.5e-6/a)*(1.+6.e-6*a2*    
422     sigma=(c+d*d)/(1.+r/p4)+(gg+e*G4Exp(-ss*P)    
423   }                                               
424   else                                            
425   {                                               
426     G4cerr<<"-Warning-G4QProtonNuclearCroSect:    
427     sigma=0.;                                     
428   }                                               
429   if(sigma<0.) return 0.;                         
430   return sigma;                                   
431 }                                                 
432                                                   
433 G4double G4ChipsProtonInelasticXS::EquLinearFi    
434 {                                                 
435   if(DX<=0. || N<2)                               
436     {                                             
437       G4cerr<<"***G4ChipsProtonInelasticXS::Eq    
438       return Y[0];                                
439     }                                             
440                                                   
441   G4int    N2=N-2;                                
442   G4double d=(X-X0)/DX;                           
443   G4int         jj=static_cast<int>(d);           
444   if     (jj<0)  jj=0;                            
445   else if(jj>N2) jj=N2;                           
446   d-=jj; // excess                                
447   G4double yi=Y[jj];                              
448   G4double sigma=yi+(Y[jj+1]-yi)*d;               
449                                                   
450   return sigma;                                   
451 }                                                 
452