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 // $Id: G4KineticTrack.hh,v 1.0 1998/05/20

 // -----------------------------------------------------------------------------

 //      GEANT 4 class header file

 //

 //      History: first implementation, A. Feliciello, 20th May 1998

 // -----------------------------------------------------------------------------


 #ifndef G4KineticTrack_h

 #define G4KineticTrack_h 1


 #include <CLHEP/Units/PhysicalConstants.h>


 #include "globals.hh"

 #include "G4ios.hh"


 #include "Randomize.hh"

 #include "G4ThreeVector.hh"

 #include "G4LorentzVector.hh"

 #include "G4VKineticNucleon.hh"

 #include "G4Nucleon.hh"

 #include "G4ParticleDefinition.hh"

 #include "G4VDecayChannel.hh"

 #include "G4Log.hh"


 // #include "G4Allocator.hh"


 class G4KineticTrackVector;


 class G4KineticTrack : public G4VKineticNucleon

 {

   public:


       G4KineticTrack();


       G4KineticTrack(const G4KineticTrack& right);


       G4KineticTrack(const G4ParticleDefinition* aDefinition,

                      G4double aFormationTime,

                      const G4ThreeVector& aPosition,

                      const G4LorentzVector& a4Momentum);

       G4KineticTrack(G4Nucleon * nucleon,

                      const G4ThreeVector& aPosition,

                      const G4LorentzVector& a4Momentum);


       ~G4KineticTrack();


       G4KineticTrack& operator=(const G4KineticTrack& right);


       G4int operator==(const G4KineticTrack& right) const;


       G4int operator!=(const G4KineticTrack& right) const;

 /*

       inline void *operator new(size_t);

       inline void operator delete(void *aTrack);

 */

       const G4ParticleDefinition* GetDefinition() const;

       void SetDefinition(const G4ParticleDefinition* aDefinition);


       G4double GetFormationTime() const;

       void SetFormationTime(G4double aFormationTime);


       const G4ThreeVector& GetPosition() const;

       void SetPosition(const G4ThreeVector aPosition);


       const G4LorentzVector& Get4Momentum() const;

       void Set4Momentum(const G4LorentzVector& a4Momentum);

       void Update4Momentum(G4double aEnergy);           // update E and p, not changing mass

       void Update4Momentum(const G4ThreeVector & aMomentum);    // idem

       void SetTrackingMomentum(const G4LorentzVector& a4Momentum);

       void UpdateTrackingMomentum(G4double aEnergy);            // update E and p, not changing mass

       void UpdateTrackingMomentum(const G4ThreeVector & aMomentum); // idem


       const G4LorentzVector& GetTrackingMomentum() const;


       G4double SampleResidualLifetime();


       void Hit();

       void SetNucleon(G4Nucleon * aN) {theNucleon = aN;}


       G4bool IsParticipant() const;


       G4KineticTrackVector* Decay();


   // LB move to public (before was private) LB

       G4double* GetActualWidth() const;


       G4double GetActualMass() const;

       G4int GetnChannels() const;


 //   position relativ to nucleus "state"

       enum CascadeState {undefined, outside, going_in, inside,

                          going_out, gone_out, captured, miss_nucleus };


       CascadeState SetState(const CascadeState new_state);

       CascadeState GetState() const;

       void SetProjectilePotential(const G4double aPotential);

       G4double GetProjectilePotential() const;


   private:


       void SetnChannels(const G4int aChannel);


       void SetActualWidth(G4double* anActualWidth);


       G4double EvaluateTotalActualWidth();


       G4double EvaluateCMMomentum (const G4double mass,

                                    const G4double* m_ij) const;


       G4double IntegrateCMMomentum(const G4double lowerLimit) const;


       G4double IntegrateCMMomentum(const G4double lowerLimit ,const G4double polemass) const;


       G4double IntegrateCMMomentum2() const;


   public:


       G4double BrWig(const G4double Gamma,

                      const G4double rmass,

                      const G4double mass) const;


 private:

       G4double IntegrandFunction1 (G4double xmass) const;

       G4double IntegrandFunction2 (G4double xmass) const;

       G4double IntegrandFunction3 (G4double xmass) const;

       G4double IntegrandFunction4 (G4double xmass) const;

 public:

   //   friend G4double IntegrandFunction3 (G4double xmass);


   //   friend G4double IntegrandFunction4 (G4double xmass);


   private:


       const G4ParticleDefinition* theDefinition;


       G4double theFormationTime;


       G4ThreeVector thePosition;


       G4LorentzVector the4Momentum;

       G4LorentzVector theFermi3Momentum;

       G4LorentzVector theTotal4Momentum;


       G4Nucleon * theNucleon;


       G4int nChannels;


       G4double theActualMass;


       G4double* theActualWidth;


      // Temporary storage for daughter masses and widths

       // (needed because Integrand Function cannot take > 1 argument)

       G4double* theDaughterMass;

       G4double* theDaughterWidth;


       CascadeState theStateToNucleus;


       G4double theProjectilePotential;

 };


 // extern G4Allocator<G4KineticTrack> theKTAllocator;


 // Class G4KineticTrack

 /*

 inline void * G4KineticTrack::operator new(size_t)

 {

   void * aT;

   aT = (void *) theKTAllocator.MallocSingle();

   return aT;

 }


 inline void G4KineticTrack::operator delete(void * aT)

 {

   theKTAllocator.FreeSingle((G4KineticTrack *) aT);

 }

 */


 inline const G4ParticleDefinition* G4KineticTrack::GetDefinition() const

 {

   return theDefinition;

 }


 inline void G4KineticTrack::SetDefinition(const G4ParticleDefinition* aDefinition)

 {

   theDefinition = aDefinition;

 }


 inline G4double G4KineticTrack::GetFormationTime() const

 {

   return theFormationTime;

 }


 inline void G4KineticTrack::SetFormationTime(G4double aFormationTime)

 {

   theFormationTime = aFormationTime;

 }


 inline const G4ThreeVector& G4KineticTrack::GetPosition() const

 {

   return thePosition;

 }


 inline void G4KineticTrack::SetPosition(const G4ThreeVector aPosition)

 {

   thePosition = aPosition;

 }


 inline const G4LorentzVector& G4KineticTrack::Get4Momentum() const

 {

   return theTotal4Momentum;

 }


 inline const G4LorentzVector& G4KineticTrack::GetTrackingMomentum() const

 {

    return the4Momentum;

 }


 inline void G4KineticTrack::Set4Momentum(const G4LorentzVector& a4Momentum)

 {

 //  set the4Momentum and update theTotal4Momentum


   theTotal4Momentum=a4Momentum;

   the4Momentum = theTotal4Momentum;

   theFermi3Momentum=G4LorentzVector(0);

 }


 inline void G4KineticTrack::Update4Momentum(G4double aEnergy)

 {

 // update the4Momentum with aEnergy at constant mass (the4Momentum.mag()

 //   updates theTotal4Momentum as well.

   G4double newP(0);

   G4double mass2=theTotal4Momentum.mag2();

   if ( sqr(aEnergy) > mass2 )

   {

       newP = std::sqrt(sqr(aEnergy) - mass2 );

   } else

   {

       aEnergy=std::sqrt(mass2);

   }

   Set4Momentum(G4LorentzVector(newP*the4Momentum.vect().unit(), aEnergy));

 }


 inline void G4KineticTrack::Update4Momentum(const G4ThreeVector & aMomentum)

 {

 // update the4Momentum with aMomentum at constant mass (the4Momentum.mag()

 //   updates theTotal4Momentum as well.

   G4double newE=std::sqrt(theTotal4Momentum.mag2() + aMomentum.mag2());

   Set4Momentum(G4LorentzVector(aMomentum, newE));

 }


 inline void G4KineticTrack::SetTrackingMomentum(const G4LorentzVector& aMomentum)

 {

 //  set the4Momentum and update theTotal4Momentum, keep the mass of aMomentum


   the4Momentum = aMomentum;

   theTotal4Momentum=the4Momentum+theFermi3Momentum;

 //     keep mass of aMomentum for the total momentum

   G4double mass2 = aMomentum.mag2();

   G4double p2=theTotal4Momentum.vect().mag2();

   theTotal4Momentum.setE(std::sqrt(mass2+p2));

 }


 inline void G4KineticTrack::UpdateTrackingMomentum(G4double aEnergy)

 {

 // update the4Momentum with aEnergy at constant mass (the4Momentum.mag()

 //   updates theTotal4Momentum as well.

   G4double newP(0);

   G4double mass2=theTotal4Momentum.mag2();

   if ( sqr(aEnergy) > mass2 )

   {

       newP = std::sqrt(sqr(aEnergy) - mass2 );

   } else

   {

       aEnergy=std::sqrt(mass2);

   }

   SetTrackingMomentum(G4LorentzVector(newP*the4Momentum.vect().unit(), aEnergy));

 }


 inline void G4KineticTrack::UpdateTrackingMomentum(const G4ThreeVector & aMomentum)

 {

 // update the4Momentum with aMomentum at constant mass (the4Momentum.mag()

 //   updates theTotal4Momentum as well.

   G4double newE=std::sqrt(theTotal4Momentum.mag2() + aMomentum.mag2());

   SetTrackingMomentum(G4LorentzVector(aMomentum, newE));

 }


 inline G4double G4KineticTrack::GetActualMass() const

 {

   return std::sqrt(std::abs(the4Momentum.mag2()));

 }


 inline G4int G4KineticTrack::GetnChannels() const

 {

   return nChannels;

 }


 inline void G4KineticTrack::SetnChannels(const G4int numberOfChannels)

 {

   nChannels = numberOfChannels;

 }


 inline G4double* G4KineticTrack::GetActualWidth() const

 {

   return theActualWidth;

 }


 inline void G4KineticTrack::SetActualWidth(G4double* anActualWidth)

 {

   theActualWidth = anActualWidth;

 }


 inline G4double G4KineticTrack::EvaluateTotalActualWidth()

 {

  G4int index;

  G4double theTotalActualWidth = 0.0;

  for (index = nChannels - 1; index >= 0; index--)

     {

      theTotalActualWidth += theActualWidth[index];

     }

  return theTotalActualWidth;

 }


 inline G4double G4KineticTrack::SampleResidualLifetime()

 {

  G4double theTotalActualWidth = this->EvaluateTotalActualWidth();

  G4double tau = CLHEP::hbar_Planck * (-1.0 / theTotalActualWidth);

  G4double theResidualLifetime = tau * G4Log(G4UniformRand());

  return theResidualLifetime*the4Momentum.gamma();

 }


 inline G4double G4KineticTrack::EvaluateCMMomentum(const G4double mass,

                                                  const G4double* m_ij) const

 {

   G4double theCMMomentum;

   if((m_ij[0]+m_ij[1])<mass)

    theCMMomentum = 1 / (2 * mass) *

           std::sqrt (((mass * mass) - (m_ij[0] + m_ij[1]) * (m_ij[0] + m_ij[1])) *

                 ((mass * mass) - (m_ij[0] - m_ij[1]) * (m_ij[0] - m_ij[1])));

   else

    theCMMomentum=0.;


  return theCMMomentum;

 }


 inline G4double G4KineticTrack::BrWig(const G4double Gamma, const G4double rmass, const G4double mass) const

 {

   G4double Norm = CLHEP::twopi;

   return (Gamma/((mass-rmass)*(mass-rmass)+Gamma*Gamma/4.))/Norm;

 }


 inline

 void G4KineticTrack::Hit()

 {

   if(theNucleon)

   {

     theNucleon->Hit(1);

   }

 }


 inline

 G4bool G4KineticTrack::IsParticipant() const

 {

   if(!theNucleon) return true;

   return theNucleon->AreYouHit();

 }


 inline

 G4KineticTrack::CascadeState G4KineticTrack::GetState() const

 {

     return theStateToNucleus;

 }


 inline

 G4KineticTrack::CascadeState G4KineticTrack::SetState(const CascadeState new_state)

 {

     CascadeState old_state=theStateToNucleus;

     theStateToNucleus=new_state;

     return old_state;

 }


 inline

 void G4KineticTrack::SetProjectilePotential(G4double aPotential)

 {

     theProjectilePotential = aPotential;

 }

 inline

 G4double G4KineticTrack::GetProjectilePotential() const

 {

     return theProjectilePotential;

 }


 #endif


G4KineticTrack::SetDefinition
void SetDefinition(const G4ParticleDefinition *aDefinition)
Definition: G4KineticTrack.hh:215

G4LorentzVector.hh

G4KineticTrack::IsParticipant
G4bool IsParticipant() const
Definition: G4KineticTrack.hh:395

G4KineticTrack::CascadeState
CascadeState
Definition: G4KineticTrack.hh:119

CLHEP::Hep3Vector
Definition: ThreeVector.h:41

G4KineticTrack::Update4Momentum
void Update4Momentum(G4double aEnergy)
Definition: G4KineticTrack.hh:259

G4VKineticNucleon.hh

G4KineticTrack::operator==
G4int operator==(const G4KineticTrack &right) const
Definition: G4KineticTrack.cc:472

G4KineticTrack::GetState
CascadeState GetState() const
Definition: G4KineticTrack.hh:402

G4KineticTrack::GetnChannels
G4int GetnChannels() const
Definition: G4KineticTrack.hh:324

G4KineticTrack::undefined
Definition: G4KineticTrack.hh:119

CLHEP::HepLorentzVector::setE
void setE(double)

G4KineticTrack::GetPosition
const G4ThreeVector & GetPosition() const
Definition: G4KineticTrack.hh:230

G4KineticTrack::Decay
G4KineticTrackVector * Decay()
Definition: G4KineticTrack.cc:486

G4VKineticNucleon
Definition: G4VKineticNucleon.hh:38

G4KineticTrack::Hit
void Hit()
Definition: G4KineticTrack.hh:386

G4KineticTrack::SetFormationTime
void SetFormationTime(G4double aFormationTime)
Definition: G4KineticTrack.hh:225

G4KineticTrack::going_out
Definition: G4KineticTrack.hh:120

G4KineticTrack::UpdateTrackingMomentum
void UpdateTrackingMomentum(G4double aEnergy)
Definition: G4KineticTrack.hh:295

G4KineticTrack::outside
Definition: G4KineticTrack.hh:119

G4KineticTrackVector
Definition: G4KineticTrackVector.hh:38

G4KineticTrack::GetActualMass
G4double GetActualMass() const
Definition: G4KineticTrack.hh:319

G4ParticleDefinition
Definition: G4ParticleDefinition.hh:72

G4KineticTrack::SetProjectilePotential
void SetProjectilePotential(const G4double aPotential)
Definition: G4KineticTrack.hh:416

G4int
int G4int
Definition: G4Types.hh:78

G4KineticTrack::gone_out
Definition: G4KineticTrack.hh:120

G4KineticTrack::GetActualWidth
G4double * GetActualWidth() const
Definition: G4KineticTrack.hh:334

G4KineticTrack::operator!=
G4int operator!=(const G4KineticTrack &right) const
Definition: G4KineticTrack.cc:479

CLHEP::HepLorentzVector::vect
Hep3Vector vect() const

G4UniformRand
#define G4UniformRand()
Definition: Randomize.hh:97

G4KineticTrack::SetState
CascadeState SetState(const CascadeState new_state)
Definition: G4KineticTrack.hh:408

G4InuclParticleNames::nucleon
G4bool nucleon(G4int ityp)
Definition: G4InuclParticleNames.hh:95

G4KineticTrack::GetFormationTime
G4double GetFormationTime() const
Definition: G4KineticTrack.hh:220

G4KineticTrack::~G4KineticTrack
~G4KineticTrack()
Definition: G4KineticTrack.cc:438

G4VDecayChannel.hh

G4bool
bool G4bool
Definition: G4Types.hh:79

G4Nucleon
Definition: G4Nucleon.hh:54

G4KineticTrack::SetNucleon
void SetNucleon(G4Nucleon *aN)
Definition: G4KineticTrack.hh:106

G4Nucleon::AreYouHit
G4bool AreYouHit() const
Definition: G4Nucleon.hh:97

G4KineticTrack::SetPosition
void SetPosition(const G4ThreeVector aPosition)
Definition: G4KineticTrack.hh:235

G4KineticTrack::going_in
Definition: G4KineticTrack.hh:119

G4KineticTrack::G4KineticTrack
G4KineticTrack()
Definition: G4KineticTrack.cc:67

G4KineticTrack::operator=
G4KineticTrack & operator=(const G4KineticTrack &right)
Definition: G4KineticTrack.cc:447

G4ParticleDefinition.hh

CLHEP::HepLorentzVector::gamma
double gamma() const
Definition: LorentzVectorK.cc:94

PhysicalConstants.h

Randomize.hh

G4KineticTrack::Set4Momentum
void Set4Momentum(const G4LorentzVector &a4Momentum)
Definition: G4KineticTrack.hh:250

G4Log.hh

globals.hh

G4Log
G4double G4Log(G4double x)
Definition: G4Log.hh:230

G4KineticTrack
Definition: G4KineticTrack.hh:57

G4KineticTrack::GetTrackingMomentum
const G4LorentzVector & GetTrackingMomentum() const
Definition: G4KineticTrack.hh:245

CLHEP::Hep3Vector::unit
Hep3Vector unit() const

G4KineticTrack::inside
Definition: G4KineticTrack.hh:119

CLHEP::HepLorentzVector::mag2
double mag2() const

G4ios.hh

CLHEP::Hep3Vector::mag2
double mag2() const

G4KineticTrack::SetTrackingMomentum
void SetTrackingMomentum(const G4LorentzVector &a4Momentum)
Definition: G4KineticTrack.hh:283

G4KineticTrack::miss_nucleus
Definition: G4KineticTrack.hh:120

G4Nucleon.hh

G4Nucleon::Hit
void Hit(G4VSplitableHadron *aHit)
Definition: G4Nucleon.hh:90

sqr
T sqr(const T &x)
Definition: templates.hh:145

CLHEP::HepLorentzVector
Definition: LorentzVector.h:72

G4double
double G4double
Definition: G4Types.hh:76

G4ThreeVector.hh

G4KineticTrack::Get4Momentum
const G4LorentzVector & Get4Momentum() const
Definition: G4KineticTrack.hh:240

G4KineticTrack::SampleResidualLifetime
G4double SampleResidualLifetime()
Definition: G4KineticTrack.hh:357

CLHEP::hbar_Planck
static constexpr double hbar_Planck
Definition: PhysicalConstants.h:64

G4KineticTrack::GetDefinition
const G4ParticleDefinition * GetDefinition() const
Definition: G4KineticTrack.hh:210

G4KineticTrack::BrWig
G4double BrWig(const G4double Gamma, const G4double rmass, const G4double mass) const
Definition: G4KineticTrack.hh:379

G4KineticTrack::captured
Definition: G4KineticTrack.hh:120

CLHEP::twopi
static constexpr double twopi
Definition: SystemOfUnits.h:55

G4KineticTrack::GetProjectilePotential
G4double GetProjectilePotential() const
Definition: G4KineticTrack.hh:421

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