55 FragmentAthrd = ResidualAthrd;
56 FragmentA = theA + ResidualA;
64 return G4double((N-3)*(P-2)*(N-2)*(P-1)*(N-1)*P)/6.0;
75 if(nCharged >=2 && (nParticles-nCharged) >= 1) {
77 rj =
G4double(3*nCharged*(nCharged-1)*(nParticles-nCharged))/denominator;
95 FragmentA = theA + ResidualA;
96 FragmentAthrd =
g4pow->
Z13(FragmentA);
102 std::ostringstream errOs;
103 errOs <<
"BAD He3 CROSS SECTION OPTION !!" <<
G4endl;
112 G4int aZ = theZ + ResidualZ;
119 C = 0.1 - (aZ - 30)*0.001;
123 C = 0.08 - (aZ - 50)*0.001;
129 return 1.0 + C*(4.0/3.0);
140 if (K > 50*
MeV) { Kc = 50*
MeV; }
156 Ec = 1.44*theZ*ResidualZ/(1.5*ResidualAthrd+delta);
157 p = p0 + p1/Ec + p2/(Ec*Ec);
158 landa = landa0*ResidualA + landa1;
162 nu = resmu1*(nu0 + nu1*Ec + nu2*(Ec*Ec));
163 q = landa - nu/(Ec*Ec) - 2*p*Ec;
164 r = mu + 2*nu/Ec + p*(Ec*Ec);
167 if(Kc < Ec) { xs = p*Kc*Kc + q*Kc +
r;}
168 else {xs = p*(Kc - ji)*(Kc - ji) + landa*Kc + mu + nu*(2 - Kc/ji)/ji ;}
170 if (xs <0.0) {xs=0.0;}
180 G4double landa, mu, nu,
p , signor(1.),sig;
202 ec = 1.44 * theZ * ResidualZ / (1.7*ResidualAthrd+ra);
204 p = p0 + p1/ec + p2/ecsq;
205 landa = landa0*ResidualA + landa1;
208 nu = a* (nu0+nu1*ec+nu2*ecsq);
210 if (xnulam > spill) { xnulam=0.; }
211 if (xnulam >= flow) { etest = 1.2 *std::sqrt(xnulam); }
213 a = -2.*p*ec + landa - nu/ecsq;
214 b = p*ecsq + mu + 2.*nu/ec;
217 if (cut > 0.) ecut = std::sqrt(cut);
218 ecut = (ecut-
a) / (p+p);
224 if (cut < 0.) { ecut2 = ecut; }
225 elab = K * FragmentA /
G4double(ResidualA);
229 if (elab > ecut2) { sig = (p*elab*elab+a*elab+
b) * signor; }
232 sig = (landa*elab+mu+nu/elab) * signor;
234 if (xnulam < flow || elab < etest) {
return sig; }
235 geom = std::sqrt(theA*K);
236 geom = 1.23*ResidualAthrd + ra + 4.573/geom;
237 geom = 31.416 * geom * geom;
G4double GetOpt12(G4double K)
G4double ResidualA13() const
G4double GetOpt0(G4double ekin)
virtual G4double GetRj(G4int NumberParticles, G4int NumberCharged)
virtual ~G4PreCompoundHe3()
G4double Z13(G4int Z) const
virtual G4double CoalescenceFactor(G4int A)
virtual G4double GetAlpha()
G4double GetOpt34(G4double K)
T max(const T t1, const T t2)
brief Return the largest of the two arguments
G4double powZ(G4int Z, G4double y) const
virtual G4double CrossSection(G4double ekin)
virtual G4double FactorialFactor(G4int N, G4int P)