Geant4 9.6.0
Toolkit for the simulation of the passage of particles through matter
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G4QChipolino.cc
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25//
26//
27// $Id$
28//
29// ---------------- G4QChipolino ----------------
30// by Mikhail Kossov, Sept 1999.
31// class for Quasmon initiated Chipolinos generated by CHIPS Model
32// --------------------------------------------------------------------
33// Short description: In the CHIPS model not only hadrons are considered,
34// but the di-hadrons, which can not be convereged to the quark content
35// of only one hadron (e.g. pi+pi+, K+p, Delta++p etc). This kind of
36// hadronic states, which can be easily decayed in two hadrons, is called
37// Chipolino-particle in the model.
38// ----------------------------------------------------------------------
39
40//#define debug
41//#define pdebug
42
43#include "G4QChipolino.hh"
44#include <cstdlib>
45using namespace std;
46
48{
49 // @@ Does not work as static const ??
50 G4QPDGCode Pi0(111);
51 G4double mPi0 = Pi0.GetMass();
52 G4QContent Pi0QC = Pi0.GetQuarkContent();
53 G4int ban =QCont.GetBaryonNumber();
54 G4int tban=abs(3*ban);
55 G4int tot=QCont.GetTot(); // Initial total number of quarks in QC
56 G4int tod=tot%2; // tot is even - meson or dibaryon-nucleus
57 if ( (!tod && (tot < 4 || (ban && tot < tban) ) ) || (tod && tot < tban+2) )
58 QCont.IncQAQ(1,0.); // Add quark-pair
59
60 G4QContent rQC=QCont; // Copy for possible reduction ("annihilation" of q-aq pairs)
61 tot=rQC.GetTot(); // New total number of quarks in QC (temporary)
62 if (tot%2)rQC.DecQAQ(-tban-2); // Reduce pairs, keep only 5 quarks (baryon case)
63 else if(ban)rQC.DecQAQ(-tban); // Reduce pairs, keep only 6 quarks (dibaryon case)
64 else rQC.DecQAQ(-4); // Reduce pairs, keep only 4 quarks (meson case)
65 tot=rQC.GetTot(); // Final total number of quarks (updated)
66#ifdef debug
67 cout<<"G4QChipolino is called with QC="<<QCont<<",rQC="<<rQC<<",tot="<<tot<<G4endl;
68#endif
69 minM=1000000.; // Prototype of minimal mass (@@ just a big number)
70 theQPDG1 = Pi0;
71 theQPDG2 = Pi0;
72 theQCont1 = Pi0QC;
73 if (!tot) // Should not be here, just in case (strange input)
74 {
75 G4cerr<<"***G4QChipolino: shouldn't be here 1 QC="<<rQC<<G4endl;
76 }
77 else if (tot==2 || tot==3) // Should not be here (basic octet/singlet states)
78 {
79 G4cerr<<"***G4QChipolino: shouldn't be here 2 QC="<<rQC<<G4endl;
80 theQCont1= rQC;
81 theQPDG1.InitByQCont(rQC);
82 theQCont = rQC+Pi0QC;
83 }
84 else if (tot==4) // Two possible combinations for the meson
85 {
86 G4QContent bQC=rQC.IndQ();
87#ifdef debug
88 G4cout<<"G4QChipolino: tot=4,rQC="<<rQC<<",bQC="<<bQC<<G4endl;
89#endif
90 for(int j=0; j<2; j++)
91 {
92 G4QContent aQC=rQC.IndAQ(j);
93 G4QContent cQC=bQC+aQC;
94 G4QPDGCode cQPDG(cQC);
95 G4double M1=cQPDG.GetMass();
96 if(cQPDG.GetPDGCode()==221) M1=mPi0;
97 G4QContent oQC=rQC-cQC;
98#ifdef debug
99 cout<<"G4QChipolino: aQC="<<aQC<<", cQC="<<cQC<<", oQC="<<oQC<<G4endl;
100#endif
101 G4QPDGCode oQPDG(oQC);
102 G4double M2=oQPDG.GetMass();
103 if(oQPDG.GetPDGCode()==221) M2=mPi0;
104 G4double m_value=M1+M2;
105#ifdef debug
106 cout<<"G4QChipolino: c="<<cQPDG<<",cM="<<M1<<",o="<<oQPDG<<",oM="<<M2
107 <<",cM+0M="<<m_value<<", curMinM="<<minM<<G4endl;
108#endif
109 if(m_value<minM)
110 {
111 minM=m_value;
112 theQPDG1 = cQPDG;
113 theQCont1 = cQC;
114 theQPDG2 = oQPDG;
115 }
116 }
117 }
118 else if (tot==5) // Four possible combinations for the baryon
119 {
120 G4int nQ=rQC.GetQ();
121 G4int nA=rQC.GetAQ();
122 G4bool fl=nA>nQ; // Flag of antibaryon case
123#ifdef pdebug
124 cout<<"G4QChipolino: Baryon case nQ="<<nQ<<",nA="<<nA<<",QC="<<rQC
125 <<",fl="<<fl<<G4endl;
126#endif
127 G4QContent bQC;
128 if (fl) bQC=rQC.IndQ(); // Antibaryon case
129 else bQC=rQC.IndAQ(); // Baryon case - QC of antiquark
130 for (int i=0; i<4; i++)
131 {
132 G4QContent cQC;
133 if (fl) cQC=bQC+rQC.IndAQ(i);
134 else cQC=bQC+rQC.IndQ(i);// Make mesonout of anti-quark
135 G4QPDGCode cQPDG(cQC); // Make QPDG particle
136 G4double M1=cQPDG.GetMass(); // Get meson mass
137 if(cQPDG.GetPDGCode()==221) M1=mPi0; // Make pi0 out of eta
138 G4QContent oQC=rQC-cQC; // Make residual baryon
139 G4QPDGCode oQPDG(oQC); // Make QPDG of residual baryon
140 G4double M2=oQPDG.GetMass(); // Get baryon mass
141 if(oQPDG.GetPDGCode()==221) M2=mPi0; // @@ Never !!
142 G4double m_value=M1+M2;
143 if(m_value<minM)
144 {
145 minM=m_value;
146 theQPDG1 = cQPDG;
147 theQCont1 = cQC;
148 theQPDG2 = oQPDG;
149 }
150 }
151#ifdef pdebug
152 cout<<"G4QChipolino: Baryon case minM="<<minM<<", M="<<theQCont1<<theQPDG1
153 <<", B="<<theQPDG2<<G4endl;
154#endif
155 }
156 else if (tot==6) // Four possible combinations for the di-baryon
157 {
158 if(ban)
159 {
160 G4int nQ=rQC.GetQ();
161 G4int nA=rQC.GetAQ();
162 G4bool fl=nA>nQ; // Flag of anti-dibaryon case
163#ifdef debug
164 cout<<"G4QChipolino: Di-Bar. case nQ="<<nQ<<",nA="<<nA<<",QC="<<rQC<<",fl="<<fl<<G4endl;
165#endif
166 for (int i=0; i<4; i++)
167 {
168 G4QContent aQC;
169 if (fl) aQC=rQC.IndAQ(i);
170 else aQC=rQC.IndQ(i);
171 for (int j=i+1; j<5; j++)
172 {
173 G4QContent bQC;
174 if (fl) bQC=aQC+rQC.IndAQ(j);
175 else bQC=aQC+rQC.IndQ(j);
176 for (int k=j+1; k<6; k++)
177 {
178 G4QContent cQC;
179 if (fl) cQC=bQC+rQC.IndAQ(k);
180 else cQC=bQC+rQC.IndQ(k);
181 G4QPDGCode cQPDG(cQC);
182 G4double M1=cQPDG.GetMass();
183 if(cQPDG.GetPDGCode()==221) M1=mPi0;
184 G4QContent oQC=rQC-cQC;
185 G4QPDGCode oQPDG=(oQC);
186 G4double M2=oQPDG.GetMass();
187 if(oQPDG.GetPDGCode()==221) M2=mPi0;
188 G4double m_value=M1+M2;
189 if(m_value<minM)
190 {
191 minM=m_value;
192 theQPDG1 = cQPDG;
193 theQCont1 = cQC;
194 theQPDG2 = oQPDG;
195 }
196 }
197 }
198 }
199 }
200 else // Baryon-AntiBaryon
201 {
202 theQCont1 = rQC.IndQ(0)+rQC.IndQ(1)+rQC.IndQ(2);
203 theQPDG1.InitByQCont(theQCont1);
204 theQPDG2.InitByQCont(rQC.IndAQ(0)+rQC.IndAQ(1)+rQC.IndAQ(2));
205 }
206 }
207 else if(((rQC.GetU() )>(rQC.GetS() -4) && (rQC.GetD() )>(rQC.GetS() -4)) ||
208 ((rQC.GetAU())>(rQC.GetAS()-4) && (rQC.GetAD())>(rQC.GetAS()-4)) )
209 {
210 G4int kD=rQC.GetD();
211 G4int kU=rQC.GetU();
212 G4int kS=rQC.GetS();
213 G4int mD=rQC.GetAD();
214 G4int mU=rQC.GetAU();
215 G4int mS=rQC.GetAS();
216 G4int nQ=rQC.GetQ();
217 G4int nA=rQC.GetAQ();
218 G4bool fl=nA>nQ; // Flag of anti-fragment case
219#ifdef debug
220 G4cout<<"G4QChipolino: NucFragment case nQ="<<nQ<<",nAQ="<<nA<<", QC="<<rQC<<",fl="<<fl
221 <<G4endl;
222#endif
223 if( (fl && kS>1) || (!fl && mS>1))
224 {
225#ifdef debug
226 G4cerr<<"***G4QChipolino: ***Overfowed by strange quarks*** rQC="<<rQC<<G4endl;
227 //throw G4QException("G4QChipolino: NuclearFragment is overflowed by strangeQuarks");
228#endif
229 }
230 else if(fl) // ===> Anti-fragment
231 {
232 //G4cerr<<"***G4QChipolino: ***Anti-nuclear fragments*** rQC="<<rQC<<G4endl;
233 //throw G4QException("G4QChipolino: Antinuclear fragments are not yet supported");
234 if(!mS) // No strange quarks
235 {
236 G4int nI=mU-mD; // Isotopic shift
237 G4int nN=(mU+mD-nI*3)/6;
238 if(!kS) // No kaons
239 {
240 if((nI>=0&&nN>=0)||(nI<0&&nN>=-nI)) // Delta isn't necessary
241 {
242 if(nI>0) // Excess of antiprotons
243 {
244 theQPDG1 = G4QPDGCode(-(90000000+1000*(nN+nI-1)+nN));// A Fragment-AProton
245 theQPDG2 = G4QPDGCode(-2212); // An Anti-Proton
246 }
247 else // Excess of a-neutrons
248 {
249 theQPDG1 = G4QPDGCode(-(90000000+1000*(nN+nI)+nN-1));// A Fragment-ANeutron
250 theQPDG2 = G4QPDGCode(-2112); // An Anti-Neutron
251 }
252 }
253 else if((nI>=0&&nN>-2)||(nI<0&&nN>-nI-2)) // Delta can be a part
254 {
255 if(nI>0) // Excess of au-quarks
256 {
257 theQPDG1=G4QPDGCode(-(90000000+1000*(nN+nI-2)+nN+1));// A Fragment-AProton
258 theQPDG2=G4QPDGCode(-2224); // An Anti-Delta++
259 }
260 else // Excess of ad-quarks
261 {
262 theQPDG1=G4QPDGCode(-(90000000+1000*(nN+nI+1)+nN-2));// A Fragment-ANeutron
263 theQPDG2=G4QPDGCode(-1114); // An Anti-Delta-
264 }
265 }
266 else
267 {
268 G4cerr<<"***G4QChipolino:**A**IsotopicAsymmetry (without S),rQC="<<rQC<<G4endl;
269 //throw G4QException("G4QChipolino: IsotopicAsymmety of AntiMultyBar Quasmon");
270 }
271 }
272 else if(kS<2) // NucFrag+K is possible
273 {
274 nN =(mU+mD-4-nI*3)/6;
275 if(nI>0) // Excess of au-quarks
276 {
277 nN+=1;
278 theQPDG1 = G4QPDGCode(-(90000000+1000*(nN+nI-1)+nN)); // An Anti-Fragment
279 theQPDG2 = G4QPDGCode(-321); // A K- meson
280 }
281 else
282 {
283 theQPDG1 = G4QPDGCode(-(90000000+1000*(nN+nI+1)+nN)); // An AntiFragment
284 theQPDG2 = G4QPDGCode(-311); // An Anti-K0 meson
285 }
286 }
287 else
288 {
289 G4cerr<<"***G4QChipolino: ***Too many kaons are needed*** rQC="<<rQC<<G4endl;
290 //throw G4QException("G4QChipolino: Too Many Kaons are needed for AntiNucFragm");
291 }
292 }
293 else // Fragment with strangeness
294 {
295 if(mS<=mU&&mS<=mD) // Fragment consisting of Neutrons, Protons & Lambrdas only
296 {
297 G4int nI=mU-mD; // Isotopic shift
298 G4int nN=(mU+mD-mS-mS-nI*3)/6;
299 if((nI>=0&&nN>=0)||(nI<0&&nN>=-nI)) // Delta isn't necessary
300 {
301 if(nI>0) // Excess of protons
302 {
303 theQPDG1 = G4QPDGCode(-(90000000+1000*(kS*1000+nN+nI-1)+nN));// Fragm-AProton
304 theQPDG2 = G4QPDGCode(-2212); // An Anti-Proton
305 }
306 else // Excess of neutrons
307 {
308 theQPDG1 = G4QPDGCode(-(90000000+1000*(kS*1000+nN+nI)+nN-1));//Fragm-ANeutron
309 theQPDG2 = G4QPDGCode(-2112); // An Anti-Neutron
310 }
311 }
312 else if((nI>=0&&nN>-2)||(nI<0&&nN>-nI-2)) // Delta can be a part
313 {
314 if(nI>0) // Excess of au-quarks
315 {
316 theQPDG1=G4QPDGCode(-(90000000+1000*(kS*1000+nN+nI-2)+nN+1));//Fragm-AProton
317 theQPDG2=G4QPDGCode(-2224); // An Anti-Delta++
318 }
319 else // Excess of ad-quarks
320 {
321 theQPDG1=G4QPDGCode(-(90000000+1000*(kS*1000+nN+nI+1)+nN-2));//Fragm-ANeutron
322 theQPDG2=G4QPDGCode(-1114); // An Anti-Delta-
323 }
324 }
325 else
326 {
327 G4cerr<<"***G4QChipolino:**A**IsotopicAssimetry (with S)*** rQC="<<rQC<<G4endl;
328 //throw G4QException("G4QChipolino: Isotopics of Strange AntiMultyBarQuasmon");
329 }
330 }
331 else // Excess of s-quarks
332 {
333 G4int lam=mU; // A#of Anti-Lambdas
334 if (lam>mD) lam=mD;
335 G4int lD=mD-lam; // Residual ad-quarks
336 G4int lU=mU-lam; // Residual au-quarks
337 G4int lS=mS-lam; // Residual as-quarks
338 if(lD+lU+lS!=3||lD<0||lU<0||lS<0)
339 {
340 G4cerr<<"***G4QChipolino:*AntiFragment* rQC="<<rQC<<",s="<<lS<<",u="<<lU<<",d"
341 <<lD<<G4endl;
342 //throw G4QException("G4QChipolino: Exotic superstrange AntiMultyBaryon");
343 }
344 if ( !lD && lU==2) theQPDG2=G4QPDGCode(-3222); // Anti-Sigma+
345 else if( !lU && lD==2) theQPDG2=G4QPDGCode(-3112); // Anti-Sigma-
346 else if( !lD && lU==1) theQPDG2=G4QPDGCode(-3322); // Anti-Ksi0
347 else if( !lU && lD==1) theQPDG2=G4QPDGCode(-3312); // Anti-Ksi-
348 else theQPDG2=G4QPDGCode(-3334); // Anti-Omega-
349 theQPDG1=G4QPDGCode(-(90+lam)*1000000); // Anti Strange Matter
350 }
351 theQCont1 = rQC-theQPDG2.GetQuarkContent(); // QCont of Fragment-H
352 theQCont = rQC; // QCont of Chipolino
353 }
354 }
355 else // ===> Nuclear Fragment
356 {
357 if(!kS) // No strange quarks
358 {
359 G4int nI=kU-kD; // Isotopic shift
360 G4int nN=(kU+kD-nI*3)/6;
361 if(!mS) // No kaons
362 {
363 if((nI>=0&&nN>=0)||(nI<0&&nN>=-nI)) // Delta isn't necessary
364 {
365 if(nI>0) // Excess of protons
366 {
367 theQPDG1 = G4QPDGCode(90000000+1000*(nN+nI-1)+nN); // A Fragment-Proton
368 theQPDG2 = G4QPDGCode(2212); // A Proton
369 }
370 else // Excess of neutrons
371 {
372 theQPDG1 = G4QPDGCode(90000000+1000*(nN+nI)+nN-1); // A Fragment-Neutron
373 theQPDG2 = G4QPDGCode(2112); // A Neutron
374 }
375 }
376 else if((nI>=0&&nN>-2)||(nI<0&&nN>-nI-2)) // Delta can be a part
377 {
378 if(nI>0) // Excess of u-quarks
379 {
380 theQPDG1=G4QPDGCode(90000000+1000*(nN+nI-2)+nN+1); // A Fragment-Proton
381 theQPDG2=G4QPDGCode(2224); // A Delta++
382 }
383 else // Excess of d-quarks
384 {
385 theQPDG1=G4QPDGCode(90000000+1000*(nN+nI+1)+nN-2); // A Fragment-Neutron
386 theQPDG2=G4QPDGCode(1114); // A Delta-
387 }
388 }
389 else
390 {
391 G4cerr<<"***G4QChipolino:***Isotopic assimetry (without S), rQC="<<rQC<<G4endl;
392 //throw G4QException("G4QChipolino:ExoticIsotopicAssimety of MultyBarQuasmon");
393 }
394 }
395 else if(mS<2) // NucFrag+K is possible
396 {
397 nN =(kU+kD-4-nI*3)/6;
398 if(nI>0) // Excess of u-quarks
399 {
400 nN+=1;
401 theQPDG1 = G4QPDGCode(90000000+1000*(nN+nI-1)+nN); // A Fragment
402 theQPDG2 = G4QPDGCode(321); // A K+ meson
403 }
404 else
405 {
406 theQPDG1 = G4QPDGCode(90000000+1000*(nN+nI+1)+nN); // A Fragment
407 theQPDG2 = G4QPDGCode(311); // A K0 meson
408 }
409 }
410 else
411 {
412 G4cerr<<"***G4QChipolino: ***Too many kaons are needed*** rQC="<<rQC<<G4endl;
413 //throw G4QException("G4QChipolino: More than one Kaon is needed for NuclFragm");
414 }
415 }
416 else // Fragment with strangeness
417 {
418 if(kS<=kU&&kS<=kD) // Fragment consisting of Neutrons, Protons & Lambrdas only
419 {
420 G4int nI=kU-kD; // Isotopic shift
421 G4int nN=(kU+kD-kS-kS-nI*3)/6;
422 if((nI>=0&&nN>=0)||(nI<0&&nN>=-nI)) // Delta isn't necessary
423 {
424 if(nI>0) // Excess of protons
425 {
426 theQPDG1 = G4QPDGCode(90000000+1000*(kS*1000+nN+nI-1)+nN);// Fragment-Proton
427 theQPDG2 = G4QPDGCode(2212); // A Proton
428 }
429 else // Excess of neutrons
430 {
431 theQPDG1 = G4QPDGCode(90000000+1000*(kS*1000+nN+nI)+nN-1);// Fragment-Neutron
432 theQPDG2 = G4QPDGCode(2112); // A Neutron
433 }
434 }
435 else if((nI>=0&&nN>-2)||(nI<0&&nN>-nI-2)) // Delta can be a part
436 {
437 if(nI>0) // Excess of u-quarks
438 {
439 theQPDG1=G4QPDGCode(90000000+1000*(kS*1000+nN+nI-2)+nN+1);// Fragment-Proton
440 theQPDG2=G4QPDGCode(2224); // A Delta++
441 }
442 else // Excess of d-quarks
443 {
444 theQPDG1=G4QPDGCode(90000000+1000*(kS*1000+nN+nI+1)+nN-2);// Fragment-Neutron
445 theQPDG2=G4QPDGCode(1114); // A Delta-
446 }
447 }
448 else
449 {
450 G4cerr<<"***G4QChipolino: ***Isotopic assimetry (with S)*** rQC="<<rQC<<G4endl;
451 //throw G4QException("G4QChipolino:IsotopicAssimety of StrangeMultyBar Quasm");
452 }
453 }
454 else // Excess of s-quarks
455 {
456 G4int lam=kU; // A#of Lambda
457 if (lam>kD) lam=kD;
458 G4int lD=kD-lam; // Residual d-quarks
459 G4int lU=kU-lam; // Residual u-quarks
460 G4int lS=kS-lam; // Residual s-quarks
461 if(lD+lU+lS!=3||lD<0||lU<0||lS<0)
462 {
463 G4cerr<<"***G4QChipolino:*Fragment*rQC="<<rQC<<",s="<<lS<<",u="<<lU<<",d"
464 <<lD<<G4endl;
465 //throw G4QException("G4QChipolino: Exotic superstrange Multy Baryon");
466 }
467 if ( !lD && lU==2) theQPDG2=G4QPDGCode(3222); // Sigma+
468 else if( !lU && lD==2) theQPDG2=G4QPDGCode(3112); // Sigma-
469 else if( !lD && lU==1) theQPDG2=G4QPDGCode(3322); // Ksi0
470 else if( !lU && lD==1) theQPDG2=G4QPDGCode(3312); // Ksi-
471 else theQPDG2=G4QPDGCode(3334); // Omega-
472 theQPDG1=G4QPDGCode((90+lam)*1000000); // Strange Matter
473 }
474 theQCont1 = rQC-theQPDG2.GetQuarkContent(); // QCont of Fragment-H
475 theQCont = rQC; // QCont of Chipolino
476 }
477 }
478 }
479 else
480 {
481 G4cerr<<"***G4QChipolino: ***Exotics*** rQC="<<rQC<<G4endl;
482 //throw G4QException("G4QChipolino: can't be constructed for exotic baryon or meson");
483 }
484}
485
487{
488 theQPDG1 = right.theQPDG1;
489 theQPDG2 = right.theQPDG2;
490 theQCont = right.theQCont;
491 theQCont1 = right.theQCont1;
492 minM = right.minM;
493}
494
496{
497 theQPDG1 = right->theQPDG1;
498 theQPDG2 = right->theQPDG2;
499 theQCont = right->theQCont;
500 theQCont1 = right->theQCont1;
501 minM = right->minM;
502}
503
505{
506 if(this != &right) // Beware of self assignment
507 {
508 theQPDG1 = right.theQPDG1;
509 theQPDG2 = right.theQPDG2;
510 theQCont = right.theQCont;
511 theQCont1 = right.theQCont1;
512 minM = right.minM;
513 }
514 return *this;
515}
516
518
519// Standard output for G4QChipolino
520ostream& operator<<(ostream& lhs, G4QChipolino& rhs)
521{
522 lhs<<"{1="<<rhs.GetQPDG1()<<",2="<<rhs.GetQPDG2()<< "}";
523 return lhs;
524}
525
526
527
528
529
530
ostream & operator<<(ostream &lhs, G4QChipolino &rhs)
double G4double
Definition: G4Types.hh:64
int G4int
Definition: G4Types.hh:66
bool G4bool
Definition: G4Types.hh:67
#define G4endl
Definition: G4ios.hh:52
G4DLLIMPORT std::ostream G4cerr
G4DLLIMPORT std::ostream G4cout
const G4QChipolino & operator=(const G4QChipolino &right)
G4QPDGCode GetQPDG1()
Definition: G4QChipolino.hh:91
G4QPDGCode GetQPDG2()
Definition: G4QChipolino.hh:92
G4int GetAD() const
Definition: G4QContent.hh:193
G4int DecQAQ(const G4int &nQAQ=1)
Definition: G4QContent.cc:904
G4int GetBaryonNumber() const
Definition: G4QContent.cc:1182
G4int GetU() const
Definition: G4QContent.hh:189
G4int GetS() const
Definition: G4QContent.hh:191
G4QContent IndQ(G4int ind=0)
Definition: G4QContent.cc:872
void IncQAQ(const G4int &nQAQ=1, const G4double &sProb=1.)
Definition: G4QContent.cc:1036
G4int GetQ() const
Definition: G4QContent.hh:181
G4int GetAS() const
Definition: G4QContent.hh:194
G4int GetD() const
Definition: G4QContent.hh:190
G4int GetAQ() const
Definition: G4QContent.hh:182
G4QContent IndAQ(G4int ind=0)
Definition: G4QContent.cc:888
G4int GetTot() const
Definition: G4QContent.hh:183
G4int GetAU() const
Definition: G4QContent.hh:192
G4QContent GetQuarkContent() const
Definition: G4QPDGCode.cc:2057
G4int GetPDGCode() const
Definition: G4QPDGCode.hh:326
void InitByQCont(G4QContent QCont)
Definition: G4QPDGCode.hh:348
G4double GetMass()
Definition: G4QPDGCode.cc:693