Geant4 10.7.0
Toolkit for the simulation of the passage of particles through matter
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G4INCL::OmegaNToPiNChannel Class Reference

#include <G4INCLOmegaNToPiNChannel.hh>

+ Inheritance diagram for G4INCL::OmegaNToPiNChannel:

Public Member Functions

 OmegaNToPiNChannel (Particle *, Particle *)
 
virtual ~OmegaNToPiNChannel ()
 
void fillFinalState (FinalState *fs)
 
- Public Member Functions inherited from G4INCL::IChannel
 IChannel ()
 
virtual ~IChannel ()
 
FinalStategetFinalState ()
 
virtual void fillFinalState (FinalState *fs)=0
 

Detailed Description

Definition at line 47 of file G4INCLOmegaNToPiNChannel.hh.

Constructor & Destructor Documentation

◆ OmegaNToPiNChannel()

G4INCL::OmegaNToPiNChannel::OmegaNToPiNChannel ( Particle p1,
Particle p2 
)

Definition at line 47 of file G4INCLOmegaNToPiNChannel.cc.

48 : particle1(p1), particle2(p2)
49 {
50
51 }

◆ ~OmegaNToPiNChannel()

G4INCL::OmegaNToPiNChannel::~OmegaNToPiNChannel ( )
virtual

Definition at line 53 of file G4INCLOmegaNToPiNChannel.cc.

53 {
54
55 }

Member Function Documentation

◆ fillFinalState()

void G4INCL::OmegaNToPiNChannel::fillFinalState ( FinalState fs)
virtual

Implements G4INCL::IChannel.

Definition at line 57 of file G4INCLOmegaNToPiNChannel.cc.

57 {
58 Particle * nucleon;
59 Particle * omega;
60 if(particle1->isNucleon()) {
61 nucleon = particle1;
62 omega = particle2;
63 } else {
64 nucleon = particle2;
65 omega = particle1;
66 }
67
68 const G4double r2 = Random::shoot();
69 if (nucleon->getType() == Neutron) {
70 if (r2*3. < 2.) {
71 nucleon->setType(Proton);
72 omega->setType(PiMinus);
73 }
74 else {
75 nucleon->setType(Neutron);
76 omega->setType(PiZero);
77 }
78 }
79 else {
80 if (r2*3. < 2.) {
81 nucleon->setType(Neutron);
82 omega->setType(PiPlus);
83 }
84 else {
85 nucleon->setType(Proton);
86 omega->setType(PiZero);
87 }
88 }
89
90 G4double sh=nucleon->getEnergy()+omega->getEnergy();
91 G4double mn=nucleon->getMass();
92 G4double me=omega->getMass();
93 G4double en=(sh*sh+mn*mn-me*me)/(2*sh);
94 nucleon->setEnergy(en);
95 G4double ee=std::sqrt(en*en-mn*mn+me*me);
96 omega->setEnergy(ee);
97 G4double pn=std::sqrt(en*en-mn*mn);
98/*// test isotropy
99 const G4double pi=std::acos(-1.0);
100 G4double x1;
101 G4double u1;
102 G4double fteta;
103 G4double teta;
104 G4double fi;
105
106 G4int passe1=0;
107 while (passe1==0) {
108 // Sample x from 0 to pi/2
109 x1=(pi/2.)*Random::shoot();
110 // Sample u from 0 to 1
111 u1=Random::shoot();
112 fteta=std::sin(x1);
113 // The condition
114 if (u1 < fteta) {
115 teta=x1;
116 passe1=1;
117 if (Random::shoot() < 0.5) {
118 teta=pi-teta;
119 }
120 }
121 }
122 fi=(2.0*pi)*Random::shoot();
123
124// end test
125 ThreeVector mom_nucleon(
126 pn*std::sin(teta)*std::cos(fi),
127 pn*std::sin(teta)*std::sin(fi),
128 pn*std::cos(teta)
129 );
130 if (Random::shoot() < 0.5) {
131 nucleon->setMomentum(mom_nucleon);
132 omega->setMomentum(-mom_nucleon);
133 }
134 else {
135 omega->setMomentum(mom_nucleon);
136 nucleon->setMomentum(-mom_nucleon);
137 }
138*/
139 ThreeVector mom_nucleon = Random::normVector(pn);
140
141 nucleon->setMomentum(mom_nucleon);
142 omega->setMomentum(-mom_nucleon);
143
144 fs->addModifiedParticle(nucleon);
145 fs->addModifiedParticle(omega);
146 }
double G4double
Definition: G4Types.hh:83
G4bool isNucleon() const
ThreeVector normVector(G4double norm=1.)
G4double shoot()
Definition: G4INCLRandom.cc:93
G4bool nucleon(G4int ityp)

The documentation for this class was generated from the following files: