de/d0b/_g4_v_elastic_collision_8cc_source.html

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 // $Id: G4VElasticCollision.cc,v 1.3 2006-06-29 20:41:53 gunter Exp $ //


 #include "globals.hh"

 #include "G4VElasticCollision.hh"

 #include "G4KineticTrack.hh"

 #include "G4VCrossSectionSource.hh"

 #include "G4Proton.hh"

 #include "G4Neutron.hh"

 #include "G4XNNElastic.hh"

 #include "G4AngularDistribution.hh"

 #include "G4ThreeVector.hh"

 #include "G4LorentzVector.hh"

 #include "G4LorentzRotation.hh"

 #include "G4KineticTrackVector.hh"

 #include "G4AngularDistributionNP.hh"   //  np scattering

 #include "G4AngularDistributionPP.hh"   //  nn and pp scattering

 #include <typeinfo>


 G4VElasticCollision::G4VElasticCollision()

 {

 }


 G4VElasticCollision::~G4VElasticCollision()

 { }


 G4KineticTrackVector* G4VElasticCollision::FinalState(const G4KineticTrack& trk1,

                                                       const G4KineticTrack& trk2) const

 {

   const G4VAngularDistribution* angDistribution;


   angDistribution = GetAngularDistribution();


   G4LorentzVector pCM=trk1.Get4Momentum() + trk2.Get4Momentum();


   G4LorentzRotation toLabFrame(pCM.boostVector());

   G4LorentzVector Ptmp=toLabFrame.inverse() * trk1.Get4Momentum();  //trk1 in CMS

   G4LorentzRotation toZ;

   toZ.rotateZ(-Ptmp.phi());

   toZ.rotateY(-Ptmp.theta());

   toLabFrame *= toZ.inverse();


   G4double S = pCM.mag2();

   G4double m10 = trk1.GetDefinition()->GetPDGMass();

   G4double m20 = trk2.GetDefinition()->GetPDGMass();

   if(S-(m10+m20)*(m10+m20) < 0) return new G4KineticTrackVector;


   G4double m_1 = trk1.GetActualMass();

   G4double m_2 = trk2.GetActualMass();


   // Angles of outgoing particles

   G4double cosTheta = angDistribution->CosTheta(S,m_1,m_2);


    if ( (trk1.GetDefinition() == G4Proton::Proton() || trk1.GetDefinition() == G4Neutron::Neutron() )

       &&(trk2.GetDefinition() == G4Proton::Proton() || trk2.GetDefinition() == G4Neutron::Neutron() ) )

    {

       if ( trk1.GetDefinition() == trk2.GetDefinition() )

       {

           if ( trk1.GetDefinition() == G4Proton::Proton() )

           {

 //            G4cout << "scatterangle pp " << cosTheta

 //                   << " " << typeid(*angDistribution).name() << G4endl;

           } else {

 //            G4cout << "scatterangle nn " << cosTheta

 //                   << " " << typeid(*angDistribution).name() << G4endl;

           }

       } else {

 //        G4cout << "scatterangle pn " << cosTheta

 //                   << " " << typeid(*angDistribution).name() << G4endl;

       }

    } else {

 //      G4cout << "scatterangle other " << cosTheta

 //                   << " " << typeid(*angDistribution).name() << G4endl;

    }


   G4double phi = angDistribution->Phi();

   G4double Theta = std::acos(cosTheta);


   // Unit vector of three-momentum

   G4ThreeVector pFinal1(std::sin(Theta)*std::cos(phi), std::sin(Theta)*std::sin(phi), cosTheta);

   // Three momentum in cm system

   G4double pInCM = std::sqrt((S-(m10+m20)*(m10+m20))*(S-(m10-m20)*(m10-m20))/(4.*S));

   pFinal1 = pFinal1 * pInCM;

   G4ThreeVector pFinal2 = -pFinal1;


   G4double eFinal1 = std::sqrt(pFinal1.mag2() + m10*m10);

   G4double eFinal2 = std::sqrt(pFinal2.mag2() + m20*m20);


   G4LorentzVector p4Final1(pFinal1, eFinal1);

   G4LorentzVector p4Final2(pFinal2, eFinal2);


   // Lorentz transformation

   p4Final1 *= toLabFrame;

   p4Final2 *= toLabFrame;


   // Final tracks are copies of incoming ones, with modified 4-momenta

   G4KineticTrack* final1 = new G4KineticTrack(trk1);

   final1->Set4Momentum(p4Final1);

   G4KineticTrack* final2 = new G4KineticTrack(trk2);

   final2->Set4Momentum(p4Final2);


   G4KineticTrackVector* finalTracks = new G4KineticTrackVector;

   finalTracks->push_back(final1);

   finalTracks->push_back(final2);


   return finalTracks;

 }

G4LorentzVector.hh

G4ThreeVector
CLHEP::Hep3Vector G4ThreeVector
Definition: G4ThreeVector.hh:42

G4VElasticCollision::FinalState
virtual G4KineticTrackVector * FinalState(const G4KineticTrack &trk1, const G4KineticTrack &trk2) const
Definition: G4VElasticCollision.cc:54

G4LorentzRotation
CLHEP::HepLorentzRotation G4LorentzRotation
Definition: G4LorentzRotation.hh:35

G4AngularDistribution.hh

G4KineticTrackVector
Definition: G4KineticTrackVector.hh:38

G4KineticTrack::GetActualMass
G4double GetActualMass() const
Definition: G4KineticTrack.hh:330

G4VCollision::GetAngularDistribution
virtual const G4VAngularDistribution * GetAngularDistribution() const =0

G4VAngularDistribution
Definition: G4VAngularDistribution.hh:54

G4VCrossSectionSource.hh

G4VAngularDistribution::CosTheta
virtual G4double CosTheta(G4double s, G4double m1, G4double m2) const =0

G4KineticTrackVector.hh

G4VElasticCollision::G4VElasticCollision
G4VElasticCollision()
Definition: G4VElasticCollision.cc:45

G4KineticTrack::GetDefinition
G4ParticleDefinition * GetDefinition() const
Definition: G4KineticTrack.hh:213

G4AngularDistributionPP.hh

G4VAngularDistribution::Phi
virtual G4double Phi() const
Definition: G4VAngularDistribution.hh:66

G4VElasticCollision::~G4VElasticCollision
virtual ~G4VElasticCollision()
Definition: G4VElasticCollision.cc:50

G4Neutron.hh

G4Proton.hh

G4XNNElastic.hh

G4Proton::Proton
static G4Proton * Proton()
Definition: G4Proton.cc:93

G4Neutron::Neutron
static G4Neutron * Neutron()
Definition: G4Neutron.cc:104

G4KineticTrack::Set4Momentum
void Set4Momentum(const G4LorentzVector &a4Momentum)
Definition: G4KineticTrack.hh:258

globals.hh

G4KineticTrack.hh

G4KineticTrack
Definition: G4KineticTrack.hh:60

G4ParticleDefinition::GetPDGMass
G4double GetPDGMass() const
Definition: G4ParticleDefinition.hh:161

G4VElasticCollision.hh

G4double
double G4double
Definition: G4Types.hh:76

G4ThreeVector.hh

G4KineticTrack::Get4Momentum
const G4LorentzVector & Get4Momentum() const
Definition: G4KineticTrack.hh:248

G4AngularDistributionNP.hh

G4LorentzVector
CLHEP::HepLorentzVector G4LorentzVector
Definition: G4LorentzVector.hh:35

G4LorentzRotation.hh