34#define INCLXX_IN_GEANT4_MODE 1
48 : particle1(p1), particle2(p2)
73 G4double en=(sh*sh+mn*mn-me*me)/(2*sh);
74 nucleon->setEnergy(en);
75 G4double ee=std::sqrt(en*en-mn*mn+me*me);
104 if (plab > 1400.) plab=1400.;
114 a6=-8.384000E-08*p1 - 1.15452E-04;
116 else if (plab < 500.){
117 a6=1.593966E-13*p4 - 2.619560E-10*p3 + 1.564701E-07*p2 - 3.986627E-05*p1 + 3.622575E-03;
120 a6=6.143615E-20*p6 - 3.157181E-16*p5 + 6.348289E-13*p4 - 6.117961E-10*p3 + 2.764542E-07*p2 - 4.391048E-05*p1 - 1.443857E-03;
124 a5=-9.021076E-18*p6 + 2.176771E-14*p5 - 2.136095E-11*p4 + 1.100580E-08*p3 - 3.150857E-06*p2 + 4.761016E-04*p1 - 2.969608E-02;
126 else if (plab < 950.){
127 a5=4.424756E-18*p6 - 1.756295E-14*p5 + 2.625428E-11*p4 - 1.678272E-08*p3 + 2.227237E-06*p2 + 2.146666E-03*p1 - 7.065712E-01;
130 a5=2.209585E-19*p6 - 1.546647E-15*p5 + 4.578142E-12*p4 - 7.303856E-09*p3 + 6.604074E-06*p2 - 3.205628E-03*p1 + 6.534893E-01;
134 a4=4.826684E-17*p6 - 1.534471E-13*p5 + 1.907868E-10*p4 - 1.192317E-07*p3 + 3.988902E-05*p2 - 6.822100E-03*p1 + 4.684685E-01;
137 a4=-3.245143E-18*p6 + 2.174395E-14*p5 - 6.012288E-11*p4 + 8.772790E-08*p3 - 7.113554E-05*p2 + 3.029285E-02*p1 - 5.237677E+00;
141 a3=3.783071E-17*p6 - 1.151454E-13*p5 + 1.357165E-10*p4 - 8.036891E-08*p3 + 2.572396E-05*p2 - 4.245566E-03*p1 + 2.832772E-01;
144 a3=-5.063316E-18*p6 + 3.223757E-14*p5 - 8.435635E-11*p4 + 1.159487E-07*p3 - 8.812510E-05*p2 + 3.500692E-02*p1 - 5.624556E+00;
148 a2=-6.085067E-14*p5 + 1.354078E-10*p4 - 1.124158E-07*p3 + 4.292106E-05*p2 - 7.218145E-03*p1 + 4.584962E-01;
150 else if (plab < 750.) {
151 a2= 9.512730E-11*p4 - 2.362724E-07*p3 + 2.171883E-04*p2 - 8.742722E-02*p1 + 1.309433E+01;
154 a2=-4.228889E-18*p6 + 2.798222E-14*p5 - 7.640831E-11*p4 + 1.100124E-07*p3 - 8.778573E-05*p2 + 3.652772E-02*p1 - 6.025497E+00;
158 a1=-1.524408E-14*p5 + 3.007021E-11*p4 - 2.129570E-08*p3 + 5.607250E-06*p2 - 3.001598E-04*p1 + 8.701280E-04;
160 else if (plab < 750.) {
161 a1=-3.255396E-11*p4 + 8.168681E-08*p3 - 7.447474E-05*p2 + 2.917630E-02*p1 - 4.152037E+00;
164 a1=9.964504E-19*p6 - 6.380168E-15*p5 + 1.638691E-11*p4 - 2.107063E-08*p3 + 1.347462E-05*p2 - 3.318304E-03*p1 - 5.030932E-02;
167 a0=-3.220143E-17*p6 + 1.789654E-13*p5 - 3.912863E-10*p4 + 4.181510E-07*p3 - 2.147259E-04*p2 + 3.856266E-02*p1 + 2.609971E+00;
169 G4double interg1=2.*(a6/7. + a4/5. + a2/3. +
a0);
180 fteta=(a6*x1*x1*x1*x1*x1*x1+a5*x1*x1*x1*x1*x1+a4*x1*x1*x1*x1+a3*x1*x1*x1+a2*x1*x1+a1*x1+
a0)/interg1;
192 pn*std::sin(teta)*std::cos(fi),
193 pn*std::sin(teta)*std::sin(fi),
197 mom_nucleon = -mom_nucleon1 ;
201 nucleon->setMomentum(mom_nucleon);
EtaNElasticChannel(Particle *, Particle *)
virtual ~EtaNElasticChannel()
void fillFinalState(FinalState *fs)
void addModifiedParticle(Particle *p)
G4double getEnergy() const
virtual void setMomentum(const G4INCL::ThreeVector &momentum)
void setEnergy(G4double energy)
G4double getMass() const
Get the cached particle mass.
G4double momentumInLab(Particle const *const p1, Particle const *const p2)
gives the momentum in the lab frame of two particles.
ThreeVector normVector(G4double norm=1.)