Geant4  10.00.p02
G4INCL::Cluster Class Reference

Cluster is a particle (inherits from the Particle class) that is actually a collection of elementary particles. More...

#include <G4INCLCluster.hh>

+ Inheritance diagram for G4INCL::Cluster:
+ Collaboration diagram for G4INCL::Cluster:

Public Member Functions

 Cluster (const G4int Z, const G4int A, const G4bool createParticleSampler=true)
 Standard Cluster constructor. More...
 
template<class Iterator >
 Cluster (Iterator begin, Iterator end)
 A cluster can be directly built from a list of particles. More...
 
virtual ~Cluster ()
 
 Cluster (const Cluster &rhs)
 Copy constructor. More...
 
Clusteroperator= (const Cluster &rhs)
 Assignment operator. More...
 
void swap (Cluster &rhs)
 Helper method for the assignment operator. More...
 
ParticleSpecies getSpecies () const
 Get the particle species. More...
 
void deleteParticles ()
 
void clearParticles ()
 
void setZ (const G4int Z)
 Set the charge number of the cluster. More...
 
void setA (const G4int A)
 Set the mass number of the cluster. More...
 
G4double getExcitationEnergy () const
 Get the excitation energy of the cluster. More...
 
void setExcitationEnergy (const G4double e)
 Set the excitation energy of the cluster. More...
 
virtual G4double getTableMass () const
 Get the real particle mass. More...
 
ParticleList const & getParticles () const
 Get the list of particles in the cluster. More...
 
void removeParticle (Particle *const p)
 Remove a particle from the cluster components. More...
 
void addParticle (Particle *const p)
 Add one particle to the cluster. More...
 
void addParticles (ParticleList const &pL)
 Add a list of particles to the cluster. More...
 
ParticleList getParticleList () const
 Returns the list of particles that make up the cluster. More...
 
std::string print () const
 
virtual void initializeParticles ()
 Initialise the NuclearDensity pointer and sample the particles. More...
 
void internalBoostToCM ()
 Boost to the CM of the component particles. More...
 
void putParticlesOffShell ()
 Put the cluster components off shell. More...
 
void setPosition (const ThreeVector &position)
 Set the position of the cluster. More...
 
void boost (const ThreeVector &aBoostVector)
 Boost the cluster with the indicated velocity. More...
 
void freezeInternalMotion ()
 Freeze the internal motion of the particles. More...
 
virtual void rotate (const G4double angle, const ThreeVector &axis)
 Rotate position and momentum of all the particles. More...
 
virtual void makeProjectileSpectator ()
 Make all the components projectile spectators, too. More...
 
virtual void makeTargetSpectator ()
 Make all the components target spectators, too. More...
 
virtual void makeParticipant ()
 Make all the components participants, too. More...
 
ThreeVector const & getSpin () const
 Get the spin of the nucleus. More...
 
void setSpin (const ThreeVector &j)
 Set the spin of the nucleus. More...
 
G4INCL::ThreeVector getAngularMomentum () const
 Get the total angular momentum (orbital + spin) More...
 
- Public Member Functions inherited from G4INCL::Particle
 Particle ()
 
 Particle (ParticleType t, G4double energy, ThreeVector const &momentum, ThreeVector const &position)
 
 Particle (ParticleType t, ThreeVector const &momentum, ThreeVector const &position)
 
virtual ~Particle ()
 
 Particle (const Particle &rhs)
 Copy constructor. More...
 
Particleoperator= (const Particle &rhs)
 Assignment operator. More...
 
G4INCL::ParticleType getType () const
 Get the particle type. More...
 
void setType (ParticleType t)
 
G4bool isNucleon () const
 Is this a nucleon? More...
 
ParticipantType getParticipantType () const
 
void setParticipantType (ParticipantType const p)
 
G4bool isParticipant () const
 
G4bool isTargetSpectator () const
 
G4bool isProjectileSpectator () const
 
G4bool isPion () const
 Is this a pion? More...
 
G4bool isResonance () const
 Is it a resonance? More...
 
G4bool isDelta () const
 Is it a Delta? More...
 
G4int getA () const
 Returns the baryon number. More...
 
G4int getZ () const
 Returns the charge number. More...
 
G4double getBeta () const
 
ThreeVector boostVector () const
 Returns a three vector we can give to the boost() -method. More...
 
void boost (const ThreeVector &aBoostVector)
 Boost the particle using a boost vector. More...
 
void lorentzContract (const ThreeVector &aBoostVector, const ThreeVector &refPos)
 Lorentz-contract the particle position around some center. More...
 
G4double getMass () const
 Get the cached particle mass. More...
 
G4double getINCLMass () const
 Get the INCL particle mass. More...
 
G4double getRealMass () const
 Get the real particle mass. More...
 
void setRealMass ()
 Set the mass of the Particle to its real mass. More...
 
void setTableMass ()
 Set the mass of the Particle to its table mass. More...
 
void setINCLMass ()
 Set the mass of the Particle to its table mass. More...
 
G4double getEmissionQValueCorrection (const G4int AParent, const G4int ZParent) const
 Computes correction on the emission Q-value. More...
 
G4double getTransferQValueCorrection (const G4int AFrom, const G4int ZFrom, const G4int ATo, const G4int ZTo) const
 Computes correction on the transfer Q-value. More...
 
G4double getInvariantMass () const
 Get the the particle invariant mass. More...
 
G4double getKineticEnergy () const
 Get the particle kinetic energy. More...
 
G4double getPotentialEnergy () const
 Get the particle potential energy. More...
 
void setPotentialEnergy (G4double v)
 Set the particle potential energy. More...
 
G4double getEnergy () const
 Get the energy of the particle in MeV. More...
 
void setMass (G4double mass)
 Set the mass of the particle in MeV/c^2. More...
 
void setEnergy (G4double energy)
 Set the energy of the particle in MeV. More...
 
const G4INCL::ThreeVectorgetMomentum () const
 Get the momentum vector. More...
 
virtual void setMomentum (const G4INCL::ThreeVector &momentum)
 Set the momentum vector. More...
 
const G4INCL::ThreeVectorgetPosition () const
 Set the position vector. More...
 
G4double getHelicity ()
 
void setHelicity (G4double h)
 
void propagate (G4double step)
 
G4int getNumberOfCollisions () const
 Return the number of collisions undergone by the particle. More...
 
void setNumberOfCollisions (G4int n)
 Set the number of collisions undergone by the particle. More...
 
void incrementNumberOfCollisions ()
 Increment the number of collisions undergone by the particle. More...
 
G4int getNumberOfDecays () const
 Return the number of decays undergone by the particle. More...
 
void setNumberOfDecays (G4int n)
 Set the number of decays undergone by the particle. More...
 
void incrementNumberOfDecays ()
 Increment the number of decays undergone by the particle. More...
 
void setOutOfWell ()
 Mark the particle as out of its potential well. More...
 
G4bool isOutOfWell () const
 Check if the particle is out of its potential well. More...
 
void setEmissionTime (G4double t)
 
G4double getEmissionTime ()
 
ThreeVector getTransversePosition () const
 Transverse component of the position w.r.t. More...
 
ThreeVector getLongitudinalPosition () const
 Longitudinal component of the position w.r.t. More...
 
const ThreeVectoradjustMomentumFromEnergy ()
 Rescale the momentum to match the total energy. More...
 
G4double adjustEnergyFromMomentum ()
 Recompute the energy to match the momentum. More...
 
G4bool isInList (ParticleList const &l) const
 Check if the particle belongs to a given list. More...
 
G4bool isCluster () const
 
void setFrozenMomentum (const ThreeVector &momentum)
 Set the frozen particle momentum. More...
 
void setFrozenEnergy (const G4double energy)
 Set the frozen particle momentum. More...
 
ThreeVector getFrozenMomentum () const
 Get the frozen particle momentum. More...
 
G4double getFrozenEnergy () const
 Get the frozen particle momentum. More...
 
ThreeVector getPropagationVelocity () const
 Get the propagation velocity of the particle. More...
 
void freezePropagation ()
 Freeze particle propagation. More...
 
void thawPropagation ()
 Unfreeze particle propagation. More...
 
std::string print () const
 
std::string dump () const
 
long getID () const
 
ParticleList const * getParticles () const
 Return a NULL pointer. More...
 
G4double getReflectionMomentum () const
 Return the reflection momentum. More...
 
void setUncorrelatedMomentum (const G4double p)
 Set the uncorrelated momentum. More...
 
void rpCorrelate ()
 Make the particle follow a strict r-p correlation. More...
 
void rpDecorrelate ()
 Make the particle not follow a strict r-p correlation. More...
 
G4double getCosRPAngle () const
 Get the cosine of the angle between position and momentum. More...
 

Protected Attributes

ParticleList particles
 
G4double theExcitationEnergy
 
ThreeVector theSpin
 
ParticleSamplertheParticleSampler
 
- Protected Attributes inherited from G4INCL::Particle
G4int theZ
 
G4int theA
 
ParticipantType theParticipantType
 
G4INCL::ParticleType theType
 
G4double theEnergy
 
G4doublethePropagationEnergy
 
G4double theFrozenEnergy
 
G4INCL::ThreeVector theMomentum
 
G4INCL::ThreeVectorthePropagationMomentum
 
G4INCL::ThreeVector theFrozenMomentum
 
G4INCL::ThreeVector thePosition
 
G4int nCollisions
 
G4int nDecays
 
G4double thePotentialEnergy
 
long ID
 
G4bool rpCorrelated
 
G4double uncorrelatedMomentum
 

Private Member Functions

G4double computeDynamicalPotential ()
 Compute the dynamical cluster potential. More...
 

Additional Inherited Members

- Protected Member Functions inherited from G4INCL::Particle
void swap (Particle &rhs)
 Helper method for the assignment operator. More...
 

Detailed Description

Cluster is a particle (inherits from the Particle class) that is actually a collection of elementary particles.

Definition at line 50 of file G4INCLCluster.hh.

Constructor & Destructor Documentation

G4INCL::Cluster::Cluster ( const G4int  Z,
const G4int  A,
const G4bool  createParticleSampler = true 
)
inline

Standard Cluster constructor.

This constructor should mainly be used when constructing Nucleus or when constructing Clusters to be used as composite projectiles.

Definition at line 58 of file G4INCLCluster.hh.

References A, G4INCL::Composite, G4INCL::Particle::setINCLMass(), G4INCL::Particle::setType(), G4INCL::Particle::theA, theParticleSampler, and G4INCL::Particle::theZ.

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template<class Iterator >
G4INCL::Cluster::Cluster ( Iterator  begin,
Iterator  end 
)
inline

A cluster can be directly built from a list of particles.

Definition at line 76 of file G4INCLCluster.hh.

References addParticle(), G4INCL::Particle::adjustMomentumFromEnergy(), G4INCL::Composite, G4INCL::Particle::setINCLMass(), G4INCL::Particle::setType(), G4INCL::Particle::theA, and G4INCL::Particle::thePosition.

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virtual G4INCL::Cluster::~Cluster ( )
inlinevirtual

Definition at line 91 of file G4INCLCluster.hh.

References theParticleSampler.

G4INCL::Cluster::Cluster ( const Cluster rhs)
inline

Copy constructor.

Definition at line 96 of file G4INCLCluster.hh.

References G4INCL::Particle::Particle(), particles, G4INCL::Particle::theA, theParticleSampler, and G4INCL::Particle::theZ.

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Member Function Documentation

void G4INCL::Cluster::addParticle ( Particle *const  p)
inline

Add one particle to the cluster.

This updates the cluster mass, energy, size, etc.

Definition at line 172 of file G4INCLCluster.hh.

References G4INCL::Particle::getA(), G4INCL::Particle::getEnergy(), G4INCL::Particle::getMomentum(), G4INCL::Particle::getNumberOfCollisions(), G4INCL::Particle::getPosition(), G4INCL::Particle::getPotentialEnergy(), G4INCL::Particle::getZ(), G4INCL::Particle::nCollisions, particles, G4INCL::Particle::theA, G4INCL::Particle::theEnergy, G4INCL::Particle::theMomentum, G4INCL::Particle::thePosition, G4INCL::Particle::thePotentialEnergy, and G4INCL::Particle::theZ.

Referenced by addParticles(), Cluster(), and G4INCL::ProjectileRemnant::reset().

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void G4INCL::Cluster::addParticles ( ParticleList const &  pL)
inline

Add a list of particles to the cluster.

Definition at line 185 of file G4INCLCluster.hh.

References addParticle().

Referenced by initializeParticles().

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void G4INCL::Cluster::boost ( const ThreeVector aBoostVector)
inline

Boost the cluster with the indicated velocity.

The Cluster is boosted as a whole, just like any Particle object; moreover, the internal components (particles list) are also boosted, according to Alain Boudard's off-shell recipe.

Parameters
aBoostVectorthe velocity to boost to [c]

Definition at line 315 of file G4INCLCluster.hh.

References G4INCL::Particle::boost(), G4INCL::ThreeVector::getX(), G4INCL::ThreeVector::getY(), G4INCL::ThreeVector::getZ(), INCL_DEBUG, particles, print(), and G4INCL::Particle::thePosition.

Referenced by G4INCL::ProjectileRemnant::ProjectileRemnant(), and G4INCL::INCL::RecoilCMFunctor::RecoilCMFunctor().

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void G4INCL::Cluster::clearParticles ( )
inline

Definition at line 140 of file G4INCLCluster.hh.

References particles.

Referenced by deleteParticles().

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G4double G4INCL::Cluster::computeDynamicalPotential ( )
inlineprivate

Compute the dynamical cluster potential.

Alain Boudard's boost prescription for low-energy beams requires to define a "dynamical potential" that allows us to conserve momentum and energy when boosting the projectile cluster.

Definition at line 406 of file G4INCLCluster.hh.

References getTableMass(), particles, and G4INCL::Particle::theA.

Referenced by putParticlesOffShell().

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void G4INCL::Cluster::deleteParticles ( )
inline

Definition at line 133 of file G4INCLCluster.hh.

References clearParticles(), and particles.

Referenced by G4INCL::Store::clearOutgoing(), G4INCL::Nucleus::decayOutgoingClusters(), G4INCL::ProjectileRemnant::reset(), and G4INCL::ProjectileRemnant::~ProjectileRemnant().

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void G4INCL::Cluster::freezeInternalMotion ( )
inline

Freeze the internal motion of the particles.

Each particle is assigned a frozen momentum four-vector determined by the collective cluster velocity. This is used for propagation, but not for dynamics. Normal propagation is restored by calling the Particle::thawPropagation() method, which should be done in InteractionAvatar::postInteraction.

Definition at line 338 of file G4INCLCluster.hh.

References G4INCL::Particle::getMass(), G4INCL::ThreeVector::mag2(), particles, and G4INCL::Particle::theMomentum.

Referenced by G4INCL::ProjectileRemnant::ProjectileRemnant().

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G4INCL::ThreeVector G4INCL::Cluster::getAngularMomentum ( ) const
inlinevirtual

Get the total angular momentum (orbital + spin)

Reimplemented from G4INCL::Particle.

Definition at line 395 of file G4INCLCluster.hh.

References G4INCL::Particle::getAngularMomentum(), and getSpin().

Referenced by G4INCL::Nucleus::computeRecoilKinematics(), and G4INCL::StandardPropagationModel::shootComposite().

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G4double G4INCL::Cluster::getExcitationEnergy ( ) const
inline

Get the excitation energy of the cluster.

Definition at line 149 of file G4INCLCluster.hh.

References theExcitationEnergy.

Referenced by G4INCL::Nucleus::fillEventInfo(), and G4INCL::Nucleus::getConservationBalance().

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ParticleList G4INCL::Cluster::getParticleList ( ) const
inline

Returns the list of particles that make up the cluster.

Definition at line 191 of file G4INCLCluster.hh.

References particles.

ParticleList const& G4INCL::Cluster::getParticles ( ) const
inline

Get the list of particles in the cluster.

Definition at line 163 of file G4INCLCluster.hh.

References particles.

Referenced by G4INCL::Nucleus::applyFinalState(), G4INCL::CoulombNone::bringToSurface(), G4INCL::INCL::makeCompoundNucleus(), G4INCL::INCL::makeProjectileRemnant(), G4INCL::INCL::postCascade(), and G4INCL::SurfaceAvatar::postInteraction().

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ParticleSpecies G4INCL::Cluster::getSpecies ( ) const
inlinevirtual

Get the particle species.

Reimplemented from G4INCL::Particle.

Definition at line 129 of file G4INCLCluster.hh.

References G4INCL::Particle::theA, and G4INCL::Particle::theZ.

ThreeVector const& G4INCL::Cluster::getSpin ( ) const
inline

Get the spin of the nucleus.

Definition at line 389 of file G4INCLCluster.hh.

References theSpin.

Referenced by G4INCL::Nucleus::fillEventInfo(), and getAngularMomentum().

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virtual G4double G4INCL::Cluster::getTableMass ( ) const
inlinevirtual

Get the real particle mass.

Overloads the Particle method.

Reimplemented from G4INCL::Particle.

Definition at line 158 of file G4INCLCluster.hh.

References G4INCL::Particle::getRealMass().

Referenced by computeDynamicalPotential(), G4INCL::CoulombNonRelativistic::minimumDistance(), and G4INCL::Nucleus::useFusionKinematics().

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void G4INCL::Cluster::initializeParticles ( )
virtual

Initialise the NuclearDensity pointer and sample the particles.

Reimplemented in G4INCL::Nucleus.

Definition at line 42 of file G4INCLCluster.cc.

References addParticles(), INCL_DEBUG, print(), G4INCL::ParticleSampler::sampleParticles(), G4INCL::Particle::theA, theParticleSampler, G4INCL::Particle::thePosition, and G4INCL::Particle::theZ.

Referenced by G4INCL::Nucleus::initializeParticles(), and G4INCL::ProjectileRemnant::ProjectileRemnant().

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void G4INCL::Cluster::internalBoostToCM ( )
inline

Boost to the CM of the component particles.

The position of all particles in the particles list is shifted so that their centre of mass is in the origin and their total momentum is zero.

Definition at line 225 of file G4INCLCluster.hh.

References G4INCL::Particle::getMass(), INCL_DEBUG, particles, print(), G4INCL::ThreeVector::setX(), G4INCL::ThreeVector::setY(), G4INCL::ThreeVector::setZ(), G4INCL::Particle::theA, G4INCL::Particle::theEnergy, G4INCL::Particle::theMomentum, and G4INCL::Particle::thePosition.

Referenced by G4INCL::ProjectileRemnant::ProjectileRemnant().

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virtual void G4INCL::Cluster::makeParticipant ( )
inlinevirtual

Make all the components participants, too.

Reimplemented from G4INCL::Particle.

Definition at line 381 of file G4INCLCluster.hh.

References G4INCL::Particle::makeParticipant(), and particles.

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virtual void G4INCL::Cluster::makeProjectileSpectator ( )
inlinevirtual

Make all the components projectile spectators, too.

Reimplemented from G4INCL::Particle.

Definition at line 365 of file G4INCLCluster.hh.

References G4INCL::Particle::makeProjectileSpectator(), and particles.

Referenced by G4INCL::ProjectileRemnant::ProjectileRemnant().

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virtual void G4INCL::Cluster::makeTargetSpectator ( )
inlinevirtual

Make all the components target spectators, too.

Reimplemented from G4INCL::Particle.

Definition at line 373 of file G4INCLCluster.hh.

References G4INCL::Particle::makeTargetSpectator(), and particles.

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Cluster& G4INCL::Cluster::operator= ( const Cluster rhs)
inline

Assignment operator.

Definition at line 111 of file G4INCLCluster.hh.

References G4INCL::Particle::operator=(), and swap().

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std::string G4INCL::Cluster::print ( ) const
inline

Definition at line 193 of file G4INCLCluster.hh.

References G4INCL::Particle::getMass(), G4INCL::ParticleTable::getName(), G4INCL::Particle::ID, particles, G4INCL::ThreeVector::print(), G4INCL::Particle::theA, G4INCL::Particle::theEnergy, G4INCL::Particle::theMomentum, G4INCL::Particle::thePosition, G4INCL::Particle::theType, and G4INCL::Particle::theZ.

Referenced by boost(), G4INCL::SurfaceAvatar::getChannel(), initializeParticles(), internalBoostToCM(), putParticlesOffShell(), G4INCL::ProjectileRemnant::removeParticle(), and G4INCL::ProjectileRemnant::reset().

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void G4INCL::Cluster::putParticlesOffShell ( )
inline

Put the cluster components off shell.

The Cluster components are put off shell in such a way that their total energy equals the cluster mass.

Definition at line 277 of file G4INCLCluster.hh.

References computeDynamicalPotential(), G4INCL::KinematicsUtils::energy(), INCL_DEBUG, G4INCL::ThreeVector::mag2(), particles, and print().

Referenced by G4INCL::ProjectileRemnant::ProjectileRemnant().

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void G4INCL::Cluster::removeParticle ( Particle *const  p)
inline

Remove a particle from the cluster components.

Definition at line 166 of file G4INCLCluster.hh.

References particles, and G4INCL::UnorderedVector< T >::remove().

Referenced by G4INCL::ProjectileRemnant::removeParticle().

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virtual void G4INCL::Cluster::rotate ( const G4double  angle,
const ThreeVector axis 
)
inlinevirtual

Rotate position and momentum of all the particles.

This includes the cluster components. Overloads Particle::rotate().

Parameters
anglethe rotation angle
axisa unit vector representing the rotation axis

Reimplemented from G4INCL::Particle.

Definition at line 357 of file G4INCLCluster.hh.

References particles, and G4INCL::Particle::rotate().

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void G4INCL::Cluster::setA ( const G4int  A)
inline

Set the mass number of the cluster.

Definition at line 146 of file G4INCLCluster.hh.

References A, and G4INCL::Particle::theA.

Referenced by G4INCL::INCL::makeCompoundNucleus().

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void G4INCL::Cluster::setExcitationEnergy ( const G4double  e)
inline

Set the excitation energy of the cluster.

Definition at line 152 of file G4INCLCluster.hh.

References theExcitationEnergy.

Referenced by G4INCL::Nucleus::finalizeProjectileRemnant(), G4INCL::INCL::makeCompoundNucleus(), and G4INCL::INCL::postCascade().

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void G4INCL::Cluster::setPosition ( const ThreeVector position)
inlinevirtual

Set the position of the cluster.

This overloads the Particle method to take into account that the positions of the cluster members must be updated as well.

Reimplemented from G4INCL::Particle.

Definition at line 299 of file G4INCLCluster.hh.

References particles, G4INCL::Particle::setPosition(), and G4INCL::Particle::thePosition.

Referenced by G4INCL::StandardPropagationModel::shootComposite().

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void G4INCL::Cluster::setSpin ( const ThreeVector j)
inline

Set the spin of the nucleus.

Definition at line 392 of file G4INCLCluster.hh.

References theSpin.

Referenced by G4INCL::Nucleus::finalizeProjectileRemnant(), G4INCL::INCL::makeCompoundNucleus(), and G4INCL::Nucleus::useFusionKinematics().

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void G4INCL::Cluster::setZ ( const G4int  Z)
inline

Set the charge number of the cluster.

Definition at line 143 of file G4INCLCluster.hh.

References G4INCL::Particle::theZ.

Referenced by G4INCL::INCL::makeCompoundNucleus().

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void G4INCL::Cluster::swap ( Cluster rhs)
inline

Helper method for the assignment operator.

Definition at line 119 of file G4INCLCluster.hh.

References particles, G4INCL::Particle::swap(), theExcitationEnergy, theParticleSampler, and theSpin.

Referenced by operator=().

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Member Data Documentation

ParticleSampler* G4INCL::Cluster::theParticleSampler
protected
ThreeVector G4INCL::Cluster::theSpin
protected

Definition at line 420 of file G4INCLCluster.hh.

Referenced by G4INCL::Nucleus::computeRecoilKinematics(), getSpin(), setSpin(), and swap().


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