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Geant4/processes/hadronic/cross_sections/src/G4ChipsKaonMinusElasticXS.cc

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Diff markup

Differences between /processes/hadronic/cross_sections/src/G4ChipsKaonMinusElasticXS.cc (Version 11.3.0) and /processes/hadronic/cross_sections/src/G4ChipsKaonMinusElasticXS.cc (Version 9.2.p1)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
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  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 //                                                
 28 //                                                
 29 // G4 Physics class: G4ChipsKaonMinusElasticXS    
 30 // Created: M.V. Kossov, CERN/ITEP(Moscow), 5-    
 31 // The last update: M.V. Kossov, CERN/ITEP (Mo    
 32 //                                                
 33 // -------------------------------------------    
 34 // Short description: Interaction cross-sectio    
 35 // Class extracted from CHIPS and integrated i    
 36 // -------------------------------------------    
 37 //                                                
 38                                                   
 39 #include "G4ChipsKaonMinusElasticXS.hh"           
 40 #include "G4SystemOfUnits.hh"                     
 41 #include "G4DynamicParticle.hh"                   
 42 #include "G4ParticleDefinition.hh"                
 43 #include "G4KaonMinus.hh"                         
 44 #include "G4Nucleus.hh"                           
 45 #include "G4ParticleTable.hh"                     
 46 #include "G4NucleiProperties.hh"                  
 47 #include "G4IonTable.hh"                          
 48 #include "G4AutoLock.hh"                          
 49                                                   
 50 // factory                                        
 51 #include "G4CrossSectionFactory.hh"               
 52 //                                                
 53 G4_DECLARE_XS_FACTORY(G4ChipsKaonMinusElasticX    
 54                                                   
 55                                                   
 56 namespace {                                       
 57     G4double mK;//= G4KaonMinus::KaonMinus()->    
 58     G4double mK2;//= mK*mK;                       
 59     G4Mutex initM = G4MUTEX_INITIALIZER;          
 60     const G4double GeVSQ=gigaelectronvolt*giga    
 61     const G4double third=1./3.;                   
 62     const G4double fifth=1./5.;                   
 63     const G4double sevth=1./7.;                   
 64     const G4double pwd=2727;                      
 65     const G4int n_kmpel=36;                //     
 66     //                        -0-   -1- -2-  -    
 67     const G4double kmp_el[n_kmpel]={5.2,.0557,    
 68         74.,3.,3.4,.2,.17,.001,8.,.055,3.64,5.    
 69         1.2e6,3.5e6,5.e-5,1.e10,8.5e8,1.e10,1.    
 70     //                        -13-14--15-16--1    
 71     //                        -26-  -27-   -28    
 72     const G4double HGeVSQ=gigaelectronvolt*gig    
 73 }                                                 
 74                                                   
 75 G4ChipsKaonMinusElasticXS::G4ChipsKaonMinusEla    
 76 {                                                 
 77   G4AutoLock l(&initM);                           
 78   mK = G4KaonMinus::KaonMinus()->GetPDGMass()*    
 79   mK2 = mK*mK;                                    
 80   l.unlock();                                     
 81   lPMin=-8.;  //Min tabulatedLogarithmMomentum    
 82   lPMax= 8.;  //Max tabulatedLogarithmMomentum    
 83   dlnP=(lPMax-lPMin)/nLast;// LogStep inTable     
 84   onlyCS=true;//Flag toCalculOnlyCS(not Si/Bi)    
 85   lastSIG=0.; //Last calculated cross section     
 86   lastLP=-10.;//LastLog(mom_of IncidentHadron)    
 87   lastTM=0.; //Last t_maximum                /    
 88   theSS=0.;  //TheLastSqSlope of 1st difr.Max/    
 89   theS1=0.;  //TheLastMantissa of 1st difrMax/    
 90   theB1=0.;  //TheLastSlope of 1st difructMax/    
 91   theS2=0.;  //TheLastMantissa of 2nd difrMax/    
 92   theB2=0.;  //TheLastSlope of 2nd difructMax/    
 93   theS3=0.;  //TheLastMantissa of 3d difr.Max/    
 94   theB3=0.;  //TheLastSlope of 3d difruct.Max/    
 95   theS4=0.;  //TheLastMantissa of 4th difrMax/    
 96   theB4=0.;  //TheLastSlope of 4th difructMax/    
 97   lastTZ=0;  // Last atomic number of theTarge    
 98   lastTN=0;  // Last # of neutrons in theTarge    
 99   lastPIN=0.;// Last initialized max momentum     
100   lastCST=0; // Elastic cross-section table       
101   lastPAR=0; // ParametersForFunctionCalculati    
102   lastSST=0; // E-dep ofSqardSlope of 1st difM    
103   lastS1T=0; // E-dep of mantissa of 1st dif.M    
104   lastB1T=0; // E-dep of the slope of 1st difM    
105   lastS2T=0; // E-dep of mantissa of 2nd difrM    
106   lastB2T=0; // E-dep of the slope of 2nd difM    
107   lastS3T=0; // E-dep of mantissa of 3d difr.M    
108   lastB3T=0; // E-dep of the slope of 3d difrM    
109   lastS4T=0; // E-dep of mantissa of 4th difrM    
110   lastB4T=0; // E-dep of the slope of 4th difM    
111   lastN=0;   // The last N of calculated nucle    
112   lastZ=0;   // The last Z of calculated nucle    
113   lastP=0.;  // LastUsed inCrossSection Moment    
114   lastTH=0.; // Last threshold momentum           
115   lastCS=0.; // Last value of the Cross Sectio    
116   lastI=0;   // The last position in the DAMDB    
117 }                                                 
118                                                   
119 G4ChipsKaonMinusElasticXS::~G4ChipsKaonMinusEl    
120 {                                                 
121   std::vector<G4double*>::iterator pos;           
122   for (pos=CST.begin(); pos<CST.end(); pos++)     
123   { delete [] *pos; }                             
124   CST.clear();                                    
125   for (pos=PAR.begin(); pos<PAR.end(); pos++)     
126   { delete [] *pos; }                             
127   PAR.clear();                                    
128   for (pos=SST.begin(); pos<SST.end(); pos++)     
129   { delete [] *pos; }                             
130   SST.clear();                                    
131   for (pos=S1T.begin(); pos<S1T.end(); pos++)     
132   { delete [] *pos; }                             
133   S1T.clear();                                    
134   for (pos=B1T.begin(); pos<B1T.end(); pos++)     
135   { delete [] *pos; }                             
136   B1T.clear();                                    
137   for (pos=S2T.begin(); pos<S2T.end(); pos++)     
138   { delete [] *pos; }                             
139   S2T.clear();                                    
140   for (pos=B2T.begin(); pos<B2T.end(); pos++)     
141   { delete [] *pos; }                             
142   B2T.clear();                                    
143   for (pos=S3T.begin(); pos<S3T.end(); pos++)     
144   { delete [] *pos; }                             
145   S3T.clear();                                    
146   for (pos=B3T.begin(); pos<B3T.end(); pos++)     
147   { delete [] *pos; }                             
148   B3T.clear();                                    
149   for (pos=S4T.begin(); pos<S4T.end(); pos++)     
150   { delete [] *pos; }                             
151   S4T.clear();                                    
152   for (pos=B4T.begin(); pos<B4T.end(); pos++)     
153   { delete [] *pos; }                             
154   B4T.clear();                                    
155 }                                                 
156                                                   
157 void                                              
158 G4ChipsKaonMinusElasticXS::CrossSectionDescrip    
159 {                                                 
160     outFile << "G4ChipsKaonMinusElasticXS prov    
161             << "section for K- nucleus scatter    
162             << "momentum. The cross section is    
163             << "CHIPS parameterization of cros    
164 }                                                 
165                                                   
166 G4bool G4ChipsKaonMinusElasticXS::IsIsoApplica    
167              const G4Element*,                    
168              const G4Material*)                   
169 {                                                 
170   return true;                                    
171 }                                                 
172                                                   
173 // The main member function giving the collisi    
174 // Make pMom in independent units ! (Now it is    
175 G4double G4ChipsKaonMinusElasticXS::GetIsoCros    
176               const G4Isotope*,                   
177               const G4Element*,                   
178               const G4Material*)                  
179 {                                                 
180   G4double pMom=Pt->GetTotalMomentum();           
181   G4int tgN = A - tgZ;                            
182                                                   
183   return GetChipsCrossSection(pMom, tgZ, tgN,     
184 }                                                 
185                                                   
186 G4double G4ChipsKaonMinusElasticXS::GetChipsCr    
187 {                                                 
188                                                   
189   G4bool fCS = false;                             
190                                                   
191   G4double pEn=pMom;                              
192   onlyCS=fCS;                                     
193                                                   
194   G4bool in=false;                   // By def    
195   lastP   = 0.;                      // New mo    
196   lastN   = tgN;                     // The la    
197   lastZ   = tgZ;                     // The la    
198   lastI   = (G4int)colN.size();      // Size o    
199   if(lastI) for(G4int i=0; i<lastI; ++i) // Lo    
200   {                                  // The nu    
201     if(colN[i]==tgN && colZ[i]==tgZ) // Isotop    
202     {                                             
203       lastI=i;                                    
204       lastTH =colTH[i];              // Last T    
205       if(pEn<=lastTH)                             
206       {                                           
207         return 0.;                   // Energy    
208       }                                           
209       lastP  =colP [i];              // Last M    
210       lastCS =colCS[i];              // Last C    
211       //  if(std::fabs(lastP/pMom-1.)<toleranc    
212       if(lastP == pMom)              // Do not    
213       {                                           
214         CalculateCrossSection(fCS,-1,i,-321,la    
215         return lastCS*millibarn;     // Use th    
216       }                                           
217       in = true;                       // This    
218       // Momentum pMom is in IU ! @@ Units        
219       lastCS=CalculateCrossSection(fCS,-1,i,-3    
220       if(lastCS<=0. && pEn>lastTH)    // Corre    
221       {                                           
222         lastTH=pEn;                               
223       }                                           
224       break;                           // Go o    
225     }                                             
226   } // End of attampt to find the nucleus in D    
227   if(!in)                            // This n    
228   {                                               
229     //!!The slave functions must provide cross    
230     lastCS=CalculateCrossSection(fCS,0,lastI,-    
231     if(lastCS<=0.)                                
232     {                                             
233       lastTH = 0; //ThresholdEnergy(tgZ, tgN);    
234       if(pEn>lastTH)                              
235       {                                           
236         lastTH=pEn;                               
237       }                                           
238     }                                             
239     colN.push_back(tgN);                          
240     colZ.push_back(tgZ);                          
241     colP.push_back(pMom);                         
242     colTH.push_back(lastTH);                      
243     colCS.push_back(lastCS);                      
244     return lastCS*millibarn;                      
245   } // End of creation of the new set of param    
246   else                                            
247   {                                               
248     colP[lastI]=pMom;                             
249     colCS[lastI]=lastCS;                          
250   }                                               
251   return lastCS*millibarn;                        
252 }                                                 
253                                                   
254 // Calculation of total elastic cross section     
255 // F=0 - create AMDB, F=-1 - read&update AMDB,    
256 G4double G4ChipsKaonMinusElasticXS::CalculateC    
257                                     G4int I, G    
258 {                                                 
259   G4double pMom=pIU/GeV;                // All    
260   onlyCS=CS;                            // Fla    
261   lastLP=std::log(pMom);                // Mak    
262   if(F)                                 // Thi    
263   {                                               
264     if(F<0)                             // the    
265     {                                             
266       lastPIN = PIN[I];                 // Max    
267       lastPAR = PAR[I];                 // Poi    
268       lastCST = CST[I];                 // Poi    
269       lastSST = SST[I];                 // Poi    
270       lastS1T = S1T[I];                 // Poi    
271       lastB1T = B1T[I];                 // Poi    
272       lastS2T = S2T[I];                 // Poi    
273       lastB2T = B2T[I];                 // Poi    
274       lastS3T = S3T[I];                 // Poi    
275       lastB3T = B3T[I];                 // Poi    
276       lastS4T = S4T[I];                 // Poi    
277       lastB4T = B4T[I];                 // Poi    
278     }                                             
279     if(lastLP>lastPIN && lastLP<lPMax)            
280     {                                             
281       lastPIN=GetPTables(lastLP,lastPIN,PDG,tg    
282       PIN[I]=lastPIN;                   // Rem    
283     }                                             
284   }                                               
285   else                                  // Thi    
286   {                                               
287     lastPAR = new G4double[nPoints];    // All    
288     lastPAR[nLast]=0;                   // Ini    
289     lastCST = new G4double[nPoints];    // All    
290     lastSST = new G4double[nPoints];    // All    
291     lastS1T = new G4double[nPoints];    // All    
292     lastB1T = new G4double[nPoints];    // All    
293     lastS2T = new G4double[nPoints];    // All    
294     lastB2T = new G4double[nPoints];    // All    
295     lastS3T = new G4double[nPoints];    // All    
296     lastB3T = new G4double[nPoints];    // All    
297     lastS4T = new G4double[nPoints];    // All    
298     lastB4T = new G4double[nPoints];    // All    
299     lastPIN = GetPTables(lastLP,lPMin,PDG,tgZ,    
300     PIN.push_back(lastPIN);             // Fil    
301     PAR.push_back(lastPAR);             // Fil    
302     CST.push_back(lastCST);             // Fil    
303     SST.push_back(lastSST);             // Fil    
304     S1T.push_back(lastS1T);             // Fil    
305     B1T.push_back(lastB1T);             // Fil    
306     S2T.push_back(lastS2T);             // Fil    
307     B2T.push_back(lastB2T);             // Fil    
308     S3T.push_back(lastS3T);             // Fil    
309     B3T.push_back(lastB3T);             // Fil    
310     S4T.push_back(lastS4T);             // Fil    
311     B4T.push_back(lastB4T);             // Fil    
312   } // End of creation/update of the new set o    
313   // =----------= NOW Update (if necessary) an    
314   if(lastLP>lastPIN && lastLP<lPMax)              
315   {                                               
316     lastPIN = GetPTables(lastLP,lastPIN,PDG,tg    
317   }                                               
318   if(!onlyCS) lastTM=GetQ2max(PDG, tgZ, tgN, p    
319   if(lastLP>lPMin && lastLP<=lastPIN)   // Lin    
320   {                                               
321     if(lastLP==lastPIN)                           
322     {                                             
323       G4double shift=(lastLP-lPMin)/dlnP+.0000    
324       G4int    blast=static_cast<int>(shift);     
325       if(blast<0 || blast>=nLast) G4cout<<"G4Q    
326       lastSIG = lastCST[blast];                   
327       if(!onlyCS)                       // Ski    
328       {                                           
329         theSS  = lastSST[blast];                  
330         theS1  = lastS1T[blast];                  
331         theB1  = lastB1T[blast];                  
332         theS2  = lastS2T[blast];                  
333         theB2  = lastB2T[blast];                  
334         theS3  = lastS3T[blast];                  
335         theB3  = lastB3T[blast];                  
336         theS4  = lastS4T[blast];                  
337         theB4  = lastB4T[blast];                  
338       }                                           
339     }                                             
340     else                                          
341     {                                             
342       G4double shift=(lastLP-lPMin)/dlnP;         
343       G4int    blast=static_cast<int>(shift);     
344       if(blast<0)   blast=0;                      
345       if(blast>=nLast) blast=nLast-1;             
346       shift-=blast;                               
347       G4int lastL=blast+1;                        
348       G4double SIGL=lastCST[blast];               
349       lastSIG= SIGL+shift*(lastCST[lastL]-SIGL    
350       if(!onlyCS)                       // Ski    
351       {                                           
352         G4double SSTL=lastSST[blast];             
353         theSS=SSTL+shift*(lastSST[lastL]-SSTL)    
354         G4double S1TL=lastS1T[blast];             
355         theS1=S1TL+shift*(lastS1T[lastL]-S1TL)    
356         G4double B1TL=lastB1T[blast];             
357         theB1=B1TL+shift*(lastB1T[lastL]-B1TL)    
358         G4double S2TL=lastS2T[blast];             
359         theS2=S2TL+shift*(lastS2T[lastL]-S2TL)    
360         G4double B2TL=lastB2T[blast];             
361         theB2=B2TL+shift*(lastB2T[lastL]-B2TL)    
362         G4double S3TL=lastS3T[blast];             
363         theS3=S3TL+shift*(lastS3T[lastL]-S3TL)    
364         G4double B3TL=lastB3T[blast];             
365         theB3=B3TL+shift*(lastB3T[lastL]-B3TL)    
366         G4double S4TL=lastS4T[blast];             
367         theS4=S4TL+shift*(lastS4T[lastL]-S4TL)    
368         G4double B4TL=lastB4T[blast];             
369         theB4=B4TL+shift*(lastB4T[lastL]-B4TL)    
370       }                                           
371     }                                             
372   }                                               
373   else lastSIG=GetTabValues(lastLP, PDG, tgZ,     
374   if(lastSIG<0.) lastSIG = 0.;                    
375   return lastSIG;                                 
376 }                                                 
377                                                   
378 // It has parameter sets for all tZ/tN/PDG, us    
379 G4double G4ChipsKaonMinusElasticXS::GetPTables    
380                                                   
381 {                                                 
382   // @@ At present all nA==pA ---------> Each     
383   if(PDG == -321)                                 
384   {                                               
385     // -- Total pp elastic cross section cs &     
386     //p2=p*p;p3=p2*p;sp=sqrt(p);p2s=p2*sp;lp=l    
387     //CS=2.865/p2s/(1+.0022/p2s)+(18.9+.6461*d    
388     //   par(0)       par(7)     par(1) par(2)    
389     //dl2=lp-5., s1=(74.+3.*dl2*dl2)/(1+3.4/p4    
390     //     par(8) par(9) par(10)        par(11    
391     // b1=8.*p**.055/(1.+3.64/p3); s2=5.e-5+40    
392     // par(15) par(16)  par(17)     par(18) pa    
393     // s3=5.e-5+1.e10/(p4*p4+8.5e8*p2+1.e10);     
394     //  par(24) par(25)     par(26)  par(27) p    
395     //                                            
396     if(lastPAR[nLast]!=pwd) // A unique flag t    
397     {                                             
398       if ( tgZ == 1 && tgN == 0 )                 
399       {                                           
400         for (G4int ip=0; ip<n_kmpel; ip++) las    
401       }                                           
402       else                                        
403       {                                           
404         G4double a=tgZ+tgN;                       
405         G4double sa=std::sqrt(a);                 
406         G4double ssa=std::sqrt(sa);               
407         G4double asa=a*sa;                        
408         G4double a2=a*a;                          
409         G4double a3=a2*a;                         
410         G4double a4=a3*a;                         
411         G4double a5=a4*a;                         
412         G4double a6=a4*a2;                        
413         G4double a7=a6*a;                         
414         G4double a8=a7*a;                         
415         G4double a9=a8*a;                         
416         G4double a10=a5*a5;                       
417         G4double a12=a6*a6;                       
418         G4double a14=a7*a7;                       
419         G4double a16=a8*a8;                       
420         G4double a17=a16*a;                       
421         //G4double a20=a16*a4;                    
422         G4double a32=a16*a16;                     
423         // Reaction cross-section parameters (    
424         lastPAR[0]=.06*asa/(1.+a*(.01+.1/ssa))    
425         lastPAR[1]=.75*asa/(1.+.009*a);           
426         lastPAR[2]=.1*a2*ssa/(1.+.0015*a2/ssa)    
427         lastPAR[3]=1./(1.+500./a2);               
428         lastPAR[4]=4.2;                           
429         lastPAR[5]=0.;                            
430         lastPAR[6]=0.;                            
431         lastPAR[7]=0.;                            
432         lastPAR[8]=0.;                            
433         // @@ the differential cross-section i    
434         if(a<6.5)                                 
435         {                                         
436           G4double a28=a16*a12;                   
437           // The main pre-exponent      (pel_s    
438           lastPAR[ 9]=4000*a;                     
439           lastPAR[10]=1.2e7*a8+380*a17;           
440           lastPAR[11]=.7/(1.+4.e-12*a16);         
441           lastPAR[12]=2.5/a8/(a4+1.e-16*a32);     
442           lastPAR[13]=.28*a;                      
443           lastPAR[14]=1.2*a2+2.3;                 
444           lastPAR[15]=3.8/a;                      
445           // The main slope             (pel_s    
446           lastPAR[16]=.01/(1.+.0024*a5);          
447           lastPAR[17]=.2*a;                       
448           lastPAR[18]=9.e-7/(1.+.035*a5);         
449           lastPAR[19]=(42.+2.7e-11*a16)/(1.+.1    
450           // The main quadratic         (pel_s    
451           lastPAR[20]=2.25*a3;                    
452           lastPAR[21]=18.;                        
453           lastPAR[22]=2.4e-3*a8/(1.+2.6e-4*a7)    
454           lastPAR[23]=3.5e-36*a32*a8/(1.+5.e-1    
455           // The 1st max pre-exponent   (pel_q    
456           lastPAR[24]=1.e5/(a8+2.5e12/a16);       
457           lastPAR[25]=8.e7/(a12+1.e-27*a28*a28    
458           lastPAR[26]=.0006*a3;                   
459           // The 1st max slope          (pel_q    
460           lastPAR[27]=10.+4.e-8*a12*a;            
461           lastPAR[28]=.114;                       
462           lastPAR[29]=.003;                       
463           lastPAR[30]=2.e-23;                     
464           // The effective pre-exponent (pel_s    
465           lastPAR[31]=1./(1.+.0001*a8);           
466           lastPAR[32]=1.5e-4/(1.+5.e-6*a12);      
467           lastPAR[33]=.03;                        
468           // The effective slope        (pel_s    
469           lastPAR[34]=a/2;                        
470           lastPAR[35]=2.e-7*a4;                   
471           lastPAR[36]=4.;                         
472           lastPAR[37]=64./a3;                     
473           // The gloria pre-exponent    (pel_u    
474           lastPAR[38]=1.e8*std::exp(.32*asa);     
475           lastPAR[39]=20.*std::exp(.45*asa);      
476           lastPAR[40]=7.e3+2.4e6/a5;              
477           lastPAR[41]=2.5e5*std::exp(.085*a3);    
478           lastPAR[42]=2.5*a;                      
479           // The gloria slope           (pel_u    
480           lastPAR[43]=920.+.03*a8*a3;             
481           lastPAR[44]=93.+.0023*a12;              
482         }                                         
483         else                                      
484         {                                         
485           G4double p1a10=2.2e-28*a10;             
486           G4double r4a16=6.e14/a16;               
487           G4double s4a16=r4a16*r4a16;             
488           // a24                                  
489           // a36                                  
490           // The main pre-exponent      (peh_s    
491           lastPAR[ 9]=4.5*std::pow(a,1.15);       
492           lastPAR[10]=.06*std::pow(a,.6);         
493           lastPAR[11]=.6*a/(1.+2.e15/a16);        
494           lastPAR[12]=.17/(a+9.e5/a3+1.5e33/a3    
495           lastPAR[13]=(.001+7.e-11*a5)/(1.+4.4    
496           lastPAR[14]=(p1a10*p1a10+2.e-29)/(1.    
497           // The main slope             (peh_s    
498           lastPAR[15]=400./a12+2.e-22*a9;         
499           lastPAR[16]=1.e-32*a12/(1.+5.e22/a14    
500           lastPAR[17]=1000./a2+9.5*sa*ssa;        
501           lastPAR[18]=4.e-6*a*asa+1.e11/a16;      
502           lastPAR[19]=(120./a+.002*a2)/(1.+2.e    
503           lastPAR[20]=9.+100./a;                  
504           // The main quadratic         (peh_s    
505           lastPAR[21]=.002*a3+3.e7/a6;            
506           lastPAR[22]=7.e-15*a4*asa;              
507           lastPAR[23]=9000./a4;                   
508           // The 1st max pre-exponent   (peh_q    
509           lastPAR[24]=.0011*asa/(1.+3.e34/a32/    
510           lastPAR[25]=1.e-5*a2+2.e14/a16;         
511           lastPAR[26]=1.2e-11*a2/(1.+1.5e19/a1    
512           lastPAR[27]=.016*asa/(1.+5.e16/a16);    
513           // The 1st max slope          (peh_q    
514           lastPAR[28]=.002*a4/(1.+7.e7/std::po    
515           lastPAR[29]=2.e6/a6+7.2/std::pow(a,.    
516           lastPAR[30]=11.*a3/(1.+7.e23/a16/a8)    
517           lastPAR[31]=100./asa;                   
518           // The 2nd max pre-exponent   (peh_s    
519           lastPAR[32]=(.1+4.4e-5*a2)/(1.+5.e5/    
520           lastPAR[33]=3.5e-4*a2/(1.+1.e8/a8);     
521           lastPAR[34]=1.3+3.e5/a4;                
522           lastPAR[35]=500./(a2+50.)+3;            
523           lastPAR[36]=1.e-9/a+s4a16*s4a16;        
524           // The 2nd max slope          (peh_s    
525           lastPAR[37]=.4*asa+3.e-9*a6;            
526           lastPAR[38]=.0005*a5;                   
527           lastPAR[39]=.002*a5;                    
528           lastPAR[40]=10.;                        
529           // The effective pre-exponent (peh_u    
530           lastPAR[41]=.05+.005*a;                 
531           lastPAR[42]=7.e-8/sa;                   
532           lastPAR[43]=.8*sa;                      
533           lastPAR[44]=.02*sa;                     
534           lastPAR[45]=1.e8/a3;                    
535           lastPAR[46]=3.e32/(a32+1.e32);          
536           // The effective slope        (peh_u    
537           lastPAR[47]=24.;                        
538           lastPAR[48]=20./sa;                     
539           lastPAR[49]=7.e3*a/(sa+1.);             
540           lastPAR[50]=900.*sa/(1.+500./a3);       
541         }                                         
542         // Parameter for lowEnergyNeutrons        
543         lastPAR[51]=1.e15+2.e27/a4/(1.+2.e-18*    
544       }                                           
545       lastPAR[nLast]=pwd;                         
546       // and initialize the zero element of th    
547       G4double lp=lPMin;                          
548       G4bool memCS=onlyCS;                        
549       onlyCS=false;                               
550       lastCST[0]=GetTabValues(lp, PDG, tgZ, tg    
551       onlyCS=memCS;                               
552       lastSST[0]=theSS;                           
553       lastS1T[0]=theS1;                           
554       lastB1T[0]=theB1;                           
555       lastS2T[0]=theS2;                           
556       lastB2T[0]=theB2;                           
557       lastS3T[0]=theS3;                           
558       lastB3T[0]=theB3;                           
559       lastS4T[0]=theS4;                           
560       lastB4T[0]=theB4;                           
561     }                                             
562     if(LP>ILP)                                    
563     {                                             
564       G4int ini = static_cast<int>((ILP-lPMin+    
565       if(ini<0) ini=0;                            
566       if(ini<nPoints)                             
567       {                                           
568         G4int fin = static_cast<int>((LP-lPMin    
569         if(fin>=nPoints) fin=nLast;               
570         if(fin>=ini)                              
571         {                                         
572           G4double lp=0.;                         
573           for(G4int ip=ini; ip<=fin; ip++)        
574           {                                       
575             lp=lPMin+ip*dlnP;                     
576             G4bool memCS=onlyCS;                  
577             onlyCS=false;                         
578             lastCST[ip]=GetTabValues(lp, PDG,     
579             onlyCS=memCS;                         
580             lastSST[ip]=theSS;                    
581             lastS1T[ip]=theS1;                    
582             lastB1T[ip]=theB1;                    
583             lastS2T[ip]=theS2;                    
584             lastB2T[ip]=theB2;                    
585             lastS3T[ip]=theS3;                    
586             lastB3T[ip]=theB3;                    
587             lastS4T[ip]=theS4;                    
588             lastB4T[ip]=theB4;                    
589           }                                       
590           return lp;                              
591         }                                         
592         else G4cout<<"*Warning*G4ChipsKaonMinu    
593                    <<", Z="<<tgZ<<", N="<<tgN<    
594                    <<" > ILP="<<ILP<<" nothing    
595       }                                           
596       else G4cout<<"*Warning*G4ChipsKaonMinusE    
597                  <<", Z="<<tgZ<<", N="<<tgN<<"    
598                  <<" > ILP="<<ILP<<", lPMax="<    
599     }                                             
600   }                                               
601   else                                            
602   {                                               
603     // G4cout<<"*Error*G4ChipsKaonMinusElastic    
604     //       <<", N="<<tgN<<", while it is def    
605     // throw G4QException("G4ChipsKaonMinusEla    
606     G4ExceptionDescription ed;                    
607     ed << "PDG = " << PDG << ", Z = " << tgZ <    
608        << ", while it is defined only for PDG=    
609     G4Exception("G4ChipsKaonMinusElasticXS::Ge    
610                 FatalException, ed);              
611   }                                               
612   return ILP;                                     
613 }                                                 
614                                                   
615 // Returns Q2=-t in independent units (MeV^2)     
616 G4double G4ChipsKaonMinusElasticXS::GetExchang    
617 {                                                 
618   if(PDG==310 || PDG==130) PDG=-321;              
619   if(PDG!=-321)G4cout<<"*Warning*G4ChipsKaonMi    
620   if(onlyCS) G4cout<<"*Warning*G4ChipsKaonMinu    
621   if(lastLP<-4.3) return lastTM*GeVSQ*G4Unifor    
622   G4double q2=0.;                                 
623   if(tgZ==1 && tgN==0)                // ===>     
624   {                                               
625     G4double E1=lastTM*theB1;                     
626     G4double R1=(1.-std::exp(-E1));               
627     G4double E2=lastTM*theB2;                     
628     G4double R2=(1.-std::exp(-E2*E2*E2));         
629     G4double E3=lastTM*theB3;                     
630     G4double R3=(1.-std::exp(-E3));               
631     G4double I1=R1*theS1/theB1;                   
632     G4double I2=R2*theS2;                         
633     G4double I3=R3*theS3;                         
634     G4double I12=I1+I2;                           
635     G4double rand=(I12+I3)*G4UniformRand();       
636     if     (rand<I1 )                             
637     {                                             
638       G4double ran=R1*G4UniformRand();            
639       if(ran>1.) ran=1.;                          
640       q2=-std::log(1.-ran)/theB1;                 
641     }                                             
642     else if(rand<I12)                             
643     {                                             
644       G4double ran=R2*G4UniformRand();            
645       if(ran>1.) ran=1.;                          
646       q2=-std::log(1.-ran);                       
647       if(q2<0.) q2=0.;                            
648       q2=std::pow(q2,third)/theB2;                
649     }                                             
650     else                                          
651     {                                             
652       G4double ran=R3*G4UniformRand();            
653       if(ran>1.) ran=1.;                          
654       q2=-std::log(1.-ran)/theB3;                 
655     }                                             
656   }                                               
657   else                                            
658   {                                               
659     G4double a=tgZ+tgN;                           
660     G4double E1=lastTM*(theB1+lastTM*theSS);      
661     G4double R1=(1.-std::exp(-E1));               
662     G4double tss=theSS+theSS; // for future so    
663     G4double tm2=lastTM*lastTM;                   
664     G4double E2=lastTM*tm2*theB2;                 
665     if(a>6.5)E2*=tm2;                             
666     G4double R2=(1.-std::exp(-E2));               
667     G4double E3=lastTM*theB3;                     
668     if(a>6.5)E3*=tm2*tm2*tm2;                     
669     G4double R3=(1.-std::exp(-E3));               
670     G4double E4=lastTM*theB4;                     
671     G4double R4=(1.-std::exp(-E4));               
672     G4double I1=R1*theS1;                         
673     G4double I2=R2*theS2;                         
674     G4double I3=R3*theS3;                         
675     G4double I4=R4*theS4;                         
676     G4double I12=I1+I2;                           
677     G4double I13=I12+I3;                          
678     G4double rand=(I13+I4)*G4UniformRand();       
679     if(rand<I1)                                   
680     {                                             
681       G4double ran=R1*G4UniformRand();            
682       if(ran>1.) ran=1.;                          
683       q2=-std::log(1.-ran)/theB1;                 
684       if(std::fabs(tss)>1.e-7) q2=(std::sqrt(t    
685     }                                             
686     else if(rand<I12)                             
687     {                                             
688       G4double ran=R2*G4UniformRand();            
689       if(ran>1.) ran=1.;                          
690       q2=-std::log(1.-ran)/theB2;                 
691       if(q2<0.) q2=0.;                            
692       if(a<6.5) q2=std::pow(q2,third);            
693       else      q2=std::pow(q2,fifth);            
694     }                                             
695     else if(rand<I13)                             
696     {                                             
697       G4double ran=R3*G4UniformRand();            
698       if(ran>1.) ran=1.;                          
699       q2=-std::log(1.-ran)/theB3;                 
700       if(q2<0.) q2=0.;                            
701       if(a>6.5) q2=std::pow(q2,sevth);            
702     }                                             
703     else                                          
704     {                                             
705       G4double ran=R4*G4UniformRand();            
706       if(ran>1.) ran=1.;                          
707       q2=-std::log(1.-ran)/theB4;                 
708       if(a<6.5) q2=lastTM-q2;                     
709     }                                             
710   }                                               
711   if(q2<0.) q2=0.;                                
712   if(!(q2>=-1.||q2<=1.)) G4cout<<"*NAN*G4QKaon    
713   if(q2>lastTM)                                   
714   {                                               
715     q2=lastTM;                                    
716   }                                               
717   return q2*GeVSQ;                                
718 }                                                 
719                                                   
720 // Returns B in independent units (MeV^-2) (al    
721 G4double G4ChipsKaonMinusElasticXS::GetSlope(G    
722 {                                                 
723   if(onlyCS)G4cout<<"*Warning*G4ChipsKaonMinus    
724   if(lastLP<-4.3) return 0.;          // S-wav    
725   if(PDG != -321)                                 
726   {                                               
727     // G4cout<<"*Error*G4ChipsKaonMinusElastic    
728     //       <<", N="<<tgN<<", while it is def    
729     // throw G4QException("G4ChipsKaonMinusEla    
730     G4ExceptionDescription ed;                    
731     ed << "PDG = " << PDG << ", Z = " << tgZ <    
732        << ", while it is defined only for PDG=    
733   }                                               
734   if(theB1<0.) theB1=0.;                          
735   if(!(theB1>=-1.||theB1<=1.))G4cout<<"*NAN*G4    
736   return theB1/GeVSQ;                             
737 }                                                 
738                                                   
739 // Returns half max(Q2=-t) in independent unit    
740 G4double G4ChipsKaonMinusElasticXS::GetHMaxT()    
741 {                                                 
742   return lastTM*HGeVSQ;                           
743 }                                                 
744                                                   
745 // lastLP is used, so calculating tables, one     
746 G4double G4ChipsKaonMinusElasticXS::GetTabValu    
747                                                   
748 {                                                 
749   if(PDG!=-321)G4cout<<"*Warning*G4ChipsKaonMi    
750                                                   
751   //AR-24Apr2018 Switch to allow transuranic e    
752   const G4bool isHeavyElementAllowed = true;      
753   if(tgZ<0 || ( !isHeavyElementAllowed && tgZ>    
754   {                                               
755     G4cout<<"*Warning*G4QKaonMinusElasticCS::G    
756     return 0.;                                    
757   }                                               
758   G4int iZ=tgZ-1; // Z index                      
759   if(iZ<0)                                        
760   {                                               
761     iZ=0;         // conversion of the neutron    
762     tgZ=1;                                        
763     tgN=0;                                        
764   }                                               
765   G4double p=std::exp(lp);              // mom    
766   G4double sp=std::sqrt(p);             // sqr    
767   G4double psp=p*sp;                    // p*s    
768   G4double p2=p*p;                                
769   G4double p3=p2*p;                               
770   G4double p4=p3*p;                               
771   if ( tgZ == 1 && tgN == 0 )           // Kao    
772   {                                               
773     G4double dl2=lp-lastPAR[12];                  
774     theSS=lastPAR[35];                            
775     theS1=(lastPAR[13]+lastPAR[14]*dl2*dl2)/(1    
776           (lastPAR[16]/p2+lastPAR[17]*p)/(p4+l    
777     theB1=lastPAR[19]*std::pow(p,lastPAR[20])/    
778     theS2=lastPAR[22]+lastPAR[23]/(p4+lastPAR[    
779     theB2=lastPAR[25]+lastPAR[26]/(p4+lastPAR[    
780     theS3=lastPAR[28]+lastPAR[29]/(p4*p4+lastP    
781     theB3=lastPAR[32]+lastPAR[33]/(p4+lastPAR[    
782     theS4=0.;                                     
783     theB4=0.;                                     
784     // Returns the total elastic pim-p cross-s    
785     G4double dp=lp-lastPAR[2];                    
786     return lastPAR[0]/psp+(lastPAR[1]*dp*dp+la    
787      lastPAR[6]/(sqr(p-lastPAR[7])+lastPAR[8])    
788   }                                               
789   else                                            
790   {                                               
791     G4double p5=p4*p;                             
792     G4double p6=p5*p;                             
793     G4double p8=p6*p2;                            
794     G4double p10=p8*p2;                           
795     G4double p12=p10*p2;                          
796     G4double p16=p8*p8;                           
797     //G4double p24=p16*p8;                        
798     G4double dl=lp-5.;                            
799     G4double a=tgZ+tgN;                           
800     G4double pah=std::pow(p,a/2);                 
801     G4double pa=pah*pah;                          
802     G4double pa2=pa*pa;                           
803     if(a<6.5)                                     
804     {                                             
805       theS1=lastPAR[9]/(1.+lastPAR[10]*p4*pa)+    
806             (lastPAR[13]*dl*dl+lastPAR[14])/(1    
807       theB1=(lastPAR[16]+lastPAR[17]*p2)/(p4+l    
808       theSS=lastPAR[20]/(1.+lastPAR[21]/p2)+la    
809       theS2=lastPAR[24]/(pa/p2+lastPAR[25]/p4)    
810       theB2=lastPAR[27]*std::pow(p,lastPAR[28]    
811       theS3=lastPAR[31]/(pa*p+lastPAR[32]/pa)+    
812       theB3=lastPAR[34]/(p3+lastPAR[35]/p6)+la    
813       theS4=p2*(pah*lastPAR[38]*std::exp(-pah*    
814                 lastPAR[40]/(1.+lastPAR[41]*st    
815       theB4=lastPAR[43]*pa/p2/(1.+pa*lastPAR[4    
816     }                                             
817     else                                          
818     {                                             
819       theS1=lastPAR[9]/(1.+lastPAR[10]/p4)+las    
820             lastPAR[13]/(p5+lastPAR[14]/p16);     
821       theB1=(lastPAR[15]/p8+lastPAR[19])/(p+la    
822             lastPAR[17]/(1.+lastPAR[18]/p4);      
823       theSS=lastPAR[21]/(p4/std::pow(p,lastPAR    
824       theS2=lastPAR[24]/p4/(std::pow(p,lastPAR    
825       theB2=lastPAR[28]/std::pow(p,lastPAR[29]    
826       theS3=lastPAR[32]/std::pow(p,lastPAR[35]    
827             lastPAR[33]/(1.+lastPAR[34]/p6);      
828       theB3=lastPAR[37]/p8+lastPAR[38]/p2+last    
829       theS4=(lastPAR[41]/p4+lastPAR[46]/p)/(1.    
830             (lastPAR[43]+lastPAR[44]*dl*dl)/(1    
831       theB4=lastPAR[47]/(1.+lastPAR[48]/p)+las    
832     }                                             
833     // Returns the total elastic (n/p)A cross-    
834     G4double dlp=lp-lastPAR[4]; // ax             
835     //         p1               p2          p3    
836     return (lastPAR[0]*dlp*dlp+lastPAR[1]+last    
837   }                                               
838   return 0.;                                      
839 } // End of GetTableValues                        
840                                                   
841 // Returns max -t=Q2 (GeV^2) for the momentum     
842 G4double G4ChipsKaonMinusElasticXS::GetQ2max(G    
843                                                   
844 {                                                 
845   G4double pP2=pP*pP;                             
846   if(tgZ || tgN>-1)                               
847   {                                               
848     G4double mt=G4ParticleTable::GetParticleTa    
849                                                   
850     G4double dmt=mt+mt;                           
851     G4double mds=dmt*std::sqrt(pP2+mK2)+mK2+mt    
852     return dmt*dmt*pP2/mds;                       
853   }                                               
854   else                                            
855   {                                               
856     G4ExceptionDescription ed;                    
857     ed << "PDG = " << PDG << ", Z = " << tgZ <    
858        << ", while it is defined only for p pr    
859     G4Exception("G4ChipsKaonMinusElasticXS::Ge    
860                 FatalException, ed);              
861     return 0;                                     
862   }                                               
863 }                                                 
864