118 else if (Z == 2 && A == 3) theDef =
G4He3::He3();
119 else if (Z == 2 && A == 4) theDef =
theAlpha;
138 fTmax = 4.0*ptot*ptot;
153 XsCoulomb=XsCoulomb*0.38938e+6;
163 G4double CoulombProb = XsCoulomb/(XsCoulomb+XsElastHad);
175 G4double par1 = 2.*(1.+Am)/(1.+ctet1);
179 G4double cosThetaCMS = (par1*ctet1- Ksi*(1.+2.*Am))/(par1-Ksi);
183 G4double PtProjCMS = ptot*std::sqrt(1.0 - cosThetaCMS*cosThetaCMS);
184 G4double PtX= PtProjCMS * std::cos(phi);
185 G4double PtY= PtProjCMS * std::sin(phi);
188 Fproj.setE(std::sqrt(PtX*PtX+PtY*PtY+PtZ*PtZ+Mproj*Mproj));
189 T = -(Pproj-Fproj).mag2();
207 if((A>=12.) && (A<27) )
fRa=
fRa*0.85;
208 if((A>=27.) && (A<48) )
fRa=
fRa*0.90;
209 if((A>=48.) && (A<65) )
fRa=
fRa*0.95;
223 { rho = 1.3347-10.342*Plab/1000.+22.277*Plab/1000.*Plab/1000.-
224 13.634*Plab/1000.*Plab/1000.*Plab/1000. ;}
225 if((Plab < 5500.)&&(Plab >= 610.) )
227 if((Plab >= 5500.)&&(Plab < 12300.) )
230 { rho = 0.135-2.26/(std::sqrt(S)) ;}
232 Ref2 = 0.35 + 0.9/std::sqrt(std::sqrt(S-4.*0.88))+0.04*
G4Log(S) ;
233 ceff2 = 0.375 - 2./S + 0.44/(
sqr(S-4.)+1.5) ;
250 { Ref2 =
fRa*
fRa +2.48*0.01*sig_pbarp*
fRa - 2.23e-6*sig_pbarp*sig_pbarp*
fRa*
fRa;
251 ceff2 = 0.16+3.3e-4*sig_pbarp+0.35*
G4Exp(-0.03*sig_pbarp);
254 { Ref2 =
fRa*
fRa -0.46 +0.03*sig_pbarp - 2.98e-6*sig_pbarp*sig_pbarp;
255 ceff2= 0.078 + 6.657e-4*sig_pbarp + 0.3359*
G4Exp(-0.03*sig_pbarp);
258 { Ref2 =
fRa*
fRa - 1.36 + 0.025 * sig_pbarp - 3.69e-7 * sig_pbarp*sig_pbarp;
259 ceff2 = 0.149 + 7.091e-04*sig_pbarp + 0.3743*
G4Exp(-0.03*sig_pbarp);
262 { Ref2 =
fRa*
fRa - 1.36 + 0.025 * sig_pbarp - 3.69e-7 * sig_pbarp*sig_pbarp;
263 ceff2 = 0.149 + 7.091e-04*sig_pbarp + 0.3743*
G4Exp(-0.03*sig_pbarp);
267 Ref2 =
fRa*
fRa - 0.28 + 0.019 * sig_pbarp + 2.06e-6 * sig_pbarp*sig_pbarp;
268 ceff2 = 0.297 + 7.853e-04*sig_pbarp + 0.2899*
G4Exp(-0.03*sig_pbarp);
275 Ref2 = XstotalHad/10./2./
pi ;
278 ceff2 = 0.38 + 2.0e-4 *sig_pbarp + 0.5 *
G4Exp(-0.03*sig_pbarp);
282 ceff2 = 0.297 + 7.853e-04*sig_pbarp + 0.2899*
G4Exp(-0.03*sig_pbarp);
286 ceff2 = 0.65 + 3.0e-4*sig_pbarp + 0.55 *
G4Exp(-0.03*sig_pbarp);
290 ceff2 = 0.57 + 2.5e-4*sig_pbarp + 0.65 *
G4Exp(-0.02*sig_pbarp);
294 ceff2 = 0.40 + 3.5e-4 *sig_pbarp + 0.45 *
G4Exp(-0.02*sig_pbarp);
301 Ref2 = XstotalHad/10./2./
pi ;
304 ceff2 = 0.26 + 2.2e-4*sig_pbarp + 0.33*
G4Exp(-0.03*sig_pbarp);
308 ceff2 = 0.149 + 7.091e-04*sig_pbarp + 0.3743*
G4Exp(-0.03*sig_pbarp);
312 ceff2 = 0.57 + 2.5e-4*sig_pbarp + 0.65 *
G4Exp(-0.02*sig_pbarp);
316 ceff2 = 0.39 + 2.7e-4*sig_pbarp + 0.7 *
G4Exp(-0.02*sig_pbarp);
320 ceff2 = 0.24 + 3.5e-4*sig_pbarp + 0.75 *
G4Exp(-0.03*sig_pbarp);
328 Ref2 = XstotalHad/10./2./
pi ;
331 ceff2 = 0.22 + 2.0e-4*sig_pbarp + 0.2 *
G4Exp(-0.03*sig_pbarp);
335 ceff2= 0.078 + 6.657e-4*sig_pbarp + 0.3359*
G4Exp(-0.03*sig_pbarp);
339 ceff2 = 0.40 + 3.5e-4 *sig_pbarp + 0.45 *
G4Exp(-0.02*sig_pbarp);
343 ceff2 = 0.24 + 3.5e-4*sig_pbarp + 0.75 *
G4Exp(-0.03*sig_pbarp);
347 ceff2 = 0.17 + 3.5e-4*sig_pbarp + 0.45 *
G4Exp(-0.03*sig_pbarp);
351 fRef=std::sqrt(Ref2);
352 fceff = std::sqrt(ceff2);
358 const G4int maxNumberOfLoops = 10000;
359 G4int loopCounter = 0;
370 ++loopCounter < maxNumberOfLoops );
371 if ( loopCounter >= maxNumberOfLoops ) {
380 G4double cosTet=1.0-T/(2.*ptot*ptot);
381 if(cosTet > 1.0 ) cosTet= 1.;
382 if(cosTet < -1.0 ) cosTet=-1.;
397 if(!(T < 0.0 || T >= 0.0))
401 G4cout <<
"G4DiffuseElastic:WARNING: A = " << A
402 <<
" mom(GeV)= " << plab/
GeV
403 <<
" S-wave will be sampled"
413 if(cosTet > 1.0 ) cosTet= 1.;
414 if(cosTet < -1.0 ) cosTet=-1.;
433 if(!(T < 0.0 || T >= 0.0))
437 G4cout <<
"G4DiffuseElastic:WARNING: A = " << A
438 <<
" mom(GeV)= " << plab/
GeV
439 <<
" S-wave will be sampled"
456 else if( cost <= -1.0)
463 sint = std::sqrt((1.0-cost)*(1.0+cost));
487 if( std::fabs(x) < 0.01 )
507 fBeta = a/std::sqrt(1+a*a);
543 G4double modvalue, value2, fact1, fact2, arg, shift, bessel;
545 modvalue = std::fabs(value);
547 if ( value < 8.0 && value > -8.0 )
549 value2 = value*value;
551 fact1 = 57568490574.0 + value2*(-13362590354.0
552 + value2*( 651619640.7
553 + value2*(-11214424.18
554 + value2*( 77392.33017
555 + value2*(-184.9052456 ) ) ) ) );
557 fact2 = 57568490411.0 + value2*( 1029532985.0
558 + value2*( 9494680.718
559 + value2*(59272.64853
560 + value2*(267.8532712
561 + value2*1.0 ) ) ) );
563 bessel = fact1/fact2;
571 shift = modvalue-0.785398164;
573 fact1 = 1.0 + value2*(-0.1098628627e-2
574 + value2*(0.2734510407e-4
575 + value2*(-0.2073370639e-5
576 + value2*0.2093887211e-6 ) ) );
577 fact2 = -0.1562499995e-1 + value2*(0.1430488765e-3
578 + value2*(-0.6911147651e-5
579 + value2*(0.7621095161e-6
580 - value2*0.934945152e-7 ) ) );
582 bessel = std::sqrt(0.636619772/modvalue)*(std::cos(shift)*fact1 - arg*std::sin(shift)*fact2);
594 G4double modvalue, value2, fact1, fact2, arg, shift, bessel;
596 modvalue = std::fabs(value);
598 if ( modvalue < 8.0 )
600 value2 = value*value;
601 fact1 = value*(72362614232.0 + value2*(-7895059235.0
602 + value2*( 242396853.1
603 + value2*(-2972611.439
604 + value2*( 15704.48260
605 + value2*(-30.16036606 ) ) ) ) ) );
607 fact2 = 144725228442.0 + value2*(2300535178.0
608 + value2*(18583304.74
609 + value2*(99447.43394
610 + value2*(376.9991397
611 + value2*1.0 ) ) ) );
612 bessel = fact1/fact2;
619 shift = modvalue - 2.356194491;
621 fact1 = 1.0 + value2*( 0.183105e-2
622 + value2*(-0.3516396496e-4
623 + value2*(0.2457520174e-5
624 + value2*(-0.240337019e-6 ) ) ) );
626 fact2 = 0.04687499995 + value2*(-0.2002690873e-3
627 + value2*( 0.8449199096e-5
628 + value2*(-0.88228987e-6
629 + value2*0.105787412e-6 ) ) );
631 bessel = std::sqrt( 0.636619772/modvalue)*(std::cos(shift)*fact1 - arg*std::sin(shift)*fact2);
632 if (value < 0.0) bessel = -bessel;
643 if( std::fabs(x) < 0.01 )
647 result = (2.- x2 + x2*x2/6.)/4.;
666 if(cteta1 < -1.) cteta1 = -1.0;
static G4Pow * GetInstance()
static G4AntiHe3 * AntiHe3()
virtual ~G4AntiNuclElastic()
static G4double GetNuclearMass(const G4double A, const G4double Z)
G4ParticleDefinition * theAHe3
G4ParticleDefinition * theADeuteron
virtual G4double SampleInvariantT(const G4ParticleDefinition *p, G4double plab, G4int Z, G4int A)
virtual G4double GetElasticElementCrossSection(const G4ParticleDefinition *aParticle, G4double kinEnergy, G4int Z, G4double A)
G4ParticleDefinition * theDeuteron
CLHEP::Hep3Vector G4ThreeVector
static G4AntiDeuteron * AntiDeuteron()
std::vector< ExP01TrackerHit * > a
G4ParticleDefinition * theANeutron
G4ParticleDefinition * theATriton
G4double BesselOneByArg(G4double z)
static G4AntiAlpha * AntiAlpha()
G4ParticleDefinition * theNeutron
static constexpr double twopi
G4double CalculateParticleBeta(const G4ParticleDefinition *particle, G4double momentum)
G4double GetAntiHadronNucleonTotCrSc(const G4ParticleDefinition *aParticle, G4double kinEnergy)
G4GLOB_DLL std::ostream G4cout
G4double Z13(G4int Z) const
double A(double temperature)
static G4AntiProton * AntiProton()
static G4Triton * Triton()
static G4Proton * Proton()
static G4Neutron * Neutron()
G4ParticleDefinition * theProton
static G4Deuteron * Deuteron()
G4double SampleThetaLab(const G4ParticleDefinition *p, G4double plab, G4int Z, G4int A)
virtual G4double GetTotalElementCrossSection(const G4ParticleDefinition *aParticle, G4double kinEnergy, G4int Z, G4double A)
G4double G4Log(G4double x)
G4double G4Exp(G4double initial_x)
Exponential Function double precision.
G4ParticleDefinition * theAProton
G4double BesselJzero(G4double z)
G4ComponentAntiNuclNuclearXS * cs
G4double CalculateAm(G4double momentum, G4double n, G4double Z)
G4double GetPDGMass() const
G4double SampleThetaCMS(const G4ParticleDefinition *p, G4double plab, G4int Z, G4int A)
G4double A13(G4double A) const
G4double DampFactor(G4double z)
G4double energy(const ThreeVector &p, const G4double m)
G4double BesselJone(G4double z)
G4ParticleDefinition * theAAlpha
static constexpr double GeV
G4ParticleDefinition * theAlpha
G4double Z23(G4int Z) const
static constexpr double MeV
static constexpr double pi
G4double CalculateZommerfeld(G4double beta, G4double Z1, G4double Z2)
static G4AntiTriton * AntiTriton()
static constexpr double fermi
G4double GetPDGCharge() const
G4double GetcosTeta1(G4double plab, G4int A)
static G4AntiNeutron * AntiNeutron()
static constexpr double millibarn
G4int GetBaryonNumber() const
CLHEP::HepLorentzVector G4LorentzVector
const G4ParticleDefinition * fParticle