Class implementing the ideal HRG model with exact conservation of strangeness (strangeness-canonical ensemble). More...

#include <ThermalModelCanonicalStrangeness.h>

Inheritance diagram for thermalfist::ThermalModelCanonicalStrangeness:

Public Member Functions
	ThermalModelCanonicalStrangeness (ThermalParticleSystem *TPS, const ThermalModelParameters &params=ThermalModelParameters())
	Construct a new ThermalModelCanonicalStrangeness object. More...

virtual	~ThermalModelCanonicalStrangeness (void)
	Destroy the ThermalModelCanonicalStrangeness object. More...

virtual void	CalculateEnergyDensitiesGCE ()
	Calculates the grand-canonical energy densities. More...

virtual void	CalculatePressuresGCE ()
	Calculates the grand-canonical pressures. More...

virtual void	CalculateSums (double Vc)
	Calculates the strangeness-canonical partition functions. More...

const std::vector< double > &	DensitiesGCE () const
	A vector of the grand-canonical particle number densities. More...

virtual void	SetParameters (const ThermalModelParameters &params)
	The thermal parameters. More...

virtual void	SetStrangenessChemicalPotential (double muS)
	Override the base class method to always set \( \mu_S \) to zero. More...

virtual void	ChangeTPS (ThermalParticleSystem *TPS)
	Change the particle list. More...

virtual void	FixParameters ()
	Method which actually implements ConstrainChemicalPotentials() (for backward compatibility). More...

virtual void	SetStatistics (bool stats)

virtual void	CalculateDensitiesGCE ()
	Calculates the particle densities in a grand-canonical ensemble. More...

virtual void	CalculatePrimordialDensities ()
	Calculates the primordial densities of all species. More...

void	CalculateFluctuations ()
	Dummy function. Fluctuations not yet supported. More...

virtual double	CalculatePressure ()
	Implementation of the equation of state functions. More...

virtual double	CalculateEnergyDensity ()

virtual double	CalculateEntropyDensity ()

virtual double	CalculateBaryonMatterEntropyDensity ()
	The fraction of entropy carried by baryons (Ideal GCE only) More...

virtual double	CalculateMesonMatterEntropyDensity ()
	The fraction of entropy carried by mesons (Ideal GCE only) More...

virtual double	ParticleScaledVariance (int)
	Scaled variance of primordial particle number fluctuations for species i. More...

virtual double	ParticleScalarDensity (int)
	The scalar density of the particle species i. More...

virtual bool	IsConservedChargeCanonical (ConservedCharge::Name charge) const
	Whether the given conserved charge is treated canonically. More...

Public Member Functions inherited from thermalfist::ThermalModelBase
	ThermalModelBase (ThermalParticleSystem *TPS, const ThermalModelParameters &params=ThermalModelParameters())
	Construct a new ThermalModelBase object. More...

virtual	~ThermalModelBase (void)

int	ComponentsNumber () const
	Number of different particle species in the list. More...

virtual void	FillVirial (const std::vector< double > &ri=std::vector< double >(0))
	Fills the excluded volume coefficients \( \tilde{b}_{ij} \) based on the provided radii parameters for all species. More...

bool	UseWidth () const
	Whether finite resonance widths are considered. More...

void	SetUseWidth (bool useWidth)
	Sets whether finite resonance widths are used. Deprecated. More...

void	SetUseWidth (ThermalParticle::ResonanceWidthIntegration type)
	Sets the finite resonance widths scheme to use. More...

void	SetOMP (bool openMP)
	OpenMP support. Currently not used. More...

void	UpdateParameters ()
	Calls SetParameters() with current m_Parameters. More...

virtual void	SetTemperature (double T)
	Set the temperature. More...

virtual void	SetBaryonChemicalPotential (double muB)
	Set the baryon chemical potential. More...

virtual void	SetElectricChemicalPotential (double muQ)
	Set the electric chemical potential. More...

virtual void	SetCharmChemicalPotential (double muC)
	Set the charm chemical potential. More...

virtual void	SetGammaq (double gammaq)
	Set the light quark fugacity factor. More...

virtual void	SetGammaS (double gammaS)
	Set the strange quark fugacity factor. More...

virtual void	SetGammaC (double gammaC)
	Set the charm quark fugacity factor. More...

virtual void	SetBaryonCharge (int B)
	Set the total baryon number (for canonical ensemble only) More...

virtual void	SetElectricCharge (int Q)
	Set the total electric charge (for canonical ensemble only) More...

virtual void	SetStrangeness (int S)
	Set the total strangeness (for canonical ensemble only) More...

virtual void	SetCharm (int C)
	Set the total charm (for canonical ensemble only) More...

virtual void	SetRadius (double)
	Set the same excluded volume radius parameter for all species. More...

virtual void	SetRadius (int, double)
	Set the radius parameter for particle species i. More...

virtual void	SetVirial (int, int, double)
	Set the excluded volume coefficient \( \tilde{b}_{ij} \). More...

virtual void	SetAttraction (int, int, double)
	Set the vdW mean field attraction coefficient \( a_{ij} \). More...

virtual void	DisableMesonMesonAttraction ()

virtual void	DisableMesonBaryonAttraction ()

virtual void	DisableBaryonBaryonAttraction ()

virtual void	DisableBaryonAntiBaryonAttraction ()

virtual void	ReadInteractionParameters (const std::string &)
	Reads the QvdW interaction parameters from a file. More...

virtual void	WriteInteractionParameters (const std::string &)
	Write the QvdW interaction parameters to a file. More...

virtual double	AttractionCoefficient (int, int) const
	QvdW mean field attraction coefficient \( a_{ij} \). More...

bool	QuantumStatistics () const

virtual void	SetCalculationType (IdealGasFunctions::QStatsCalculationType type)
	Sets the CalculationType() method to evaluate quantum statistics. Calls the corresponding method in TPS(). More...

virtual void	SetClusterExpansionOrder (int order)
	Set the number of terms in the cluster expansion method. Calls the corresponding method in TPS(). More...

void	SetResonanceWidthShape (ThermalParticle::ResonanceWidthShape shape)
	Set the ThermalParticle::ResonanceWidthShape for all particles. Calls the corresponding method in TPS(). More...

void	SetResonanceWidthIntegrationType (ThermalParticle::ResonanceWidthIntegration type)
	Set the ThermalParticle::ResonanceWidthIntegration scheme for all particles. Calls the corresponding method in TPS(). More...

virtual void	FillChemicalPotentials ()
	Sets the chemical potentials of all particles. More...

virtual void	SetChemicalPotentials (const std::vector< double > &chem=std::vector< double >(0))
	Sets the chemical potentials of all particles. More...

const std::vector< double > &	ChemicalPotentials () const
	A vector of chemical potentials of all particles. More...

double	ChemicalPotential (int i) const
	Chemical potential of particle species i. More...

virtual double	FullIdealChemicalPotential (int i) const
	Chemical potential entering the ideal gas expressions of particle species i. More...

bool	ConstrainMuB () const

void	ConstrainMuB (bool constrain)

bool	ConstrainMuQ () const

void	ConstrainMuQ (bool constrain)

bool	ConstrainMuS () const

void	ConstrainMuS (bool constrain)

bool	ConstrainMuC () const

void	ConstrainMuC (bool constrain)

void	UsePartialChemicalEquilibrium (bool usePCE)
	Sets whether partial chemical equilibrium with additional chemical potentials is used. More...

bool	UsePartialChemicalEquilibrium ()
	Whether partial chemical equilibrium with additional chemical potentials is used. More...

void	SetVolume (double Volume)
	Sets the system volume. More...

double	Volume () const
	System volume (fm \(^3\)) More...

void	SetVolumeRadius (double R)
	Sets the system radius. More...

double	CanonicalVolume () const
	The canonical correlation volume V \(_c\) (fm \(^3\)) More...

void	SetCanonicalVolume (double Volume)
	Set the canonical correlation volume V \(_c\). More...

void	SetCanonicalVolumeRadius (double Rc)
	Set the canonical correlation system radius. More...

void	ConstrainChemicalPotentials (bool resetInitialValues=true)
	Constrains the chemical potentials \( \mu_B,\,\mu_Q,\,\mu_S,\,\mu_C \) by the conservation laws imposed. More...

virtual void	FixParametersNoReset ()
	Method which actually implements ConstrainChemicalPotentialsNoReset() (for backward compatibility). More...

virtual bool	SolveChemicalPotentials (double totB=0., double totQ=0., double totS=0., double totC=0., double muBinit=0., double muQinit=0., double muSinit=0., double muCinit=0., bool ConstrMuB=true, bool ConstrMuQ=true, bool ConstrMuS=true, bool ConstrMuC=true)
	The procedure which calculates the chemical potentials \( \mu_B,\,\mu_Q,\,\mu_S,\,\mu_Q \) which reproduce the specified total baryon, electric, strangeness, and charm charges of the system. More...

virtual void	CalculateDensities ()
	Calculates the primordial and total (after decays) densities of all species. More...

virtual void	ValidateCalculation ()
	Checks whether issues have occured during the calculation of particle densities in the CalculateDensities() method. More...

std::string	ValidityCheckLog () const
	All messaged which occured during the validation procedure in the ValidateCalculation() method. More...

virtual void	CalculateFeeddown ()
	Calculates the total densities which include feeddown contributions. More...

virtual void	CalculateTwoParticleCorrelations ()
	Computes the fluctuations and correlations of the primordial particle numbers. More...

virtual void	CalculateTwoParticleFluctuationsDecays ()
	Computes particle number correlations and fluctuations for all final-state particles which are marked stable. More...

virtual double	TwoParticleSusceptibilityPrimordial (int i, int j) const
	Returns the computed primordial particle number (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_j \rangle \) for particles with ids i and j. CalculateFluctuations() must be called beforehand. More...

virtual double	TwoParticleSusceptibilityPrimordialByPdg (long long id1, long long id2)
	Returns the computed primordial particle number (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_j \rangle \) for particles with pdg codes id1 and id2. CalculateFluctuations() must be called beforehand. More...

virtual double	NetParticleSusceptibilityPrimordialByPdg (long long id1, long long id2)
	Returns the computed (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_j \rangle \) between primordial net-particle numbers for pdg codes id1 and id2. CalculateFluctuations() must be called beforehand. More...

virtual double	TwoParticleSusceptibilityFinal (int i, int j) const
	Returns the computed final particle number (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_j \rangle \) for particles with ids i and j. CalculateFluctuations() must be called beforehand. Both particle species must be those marked stable. More...

virtual double	TwoParticleSusceptibilityFinalByPdg (long long id1, long long id2)
	Returns the computed final particle number (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_j \rangle \) for particles with pdg codes id1 and id2. CalculateFluctuations() must be called beforehand. Both particle species must be those marked stable. More...

virtual double	NetParticleSusceptibilityFinalByPdg (long long id1, long long id2)
	Returns the computed (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_j \rangle \) between final net-particle numbers for pdg codes id1 and id2. CalculateFluctuations() must be called beforehand. More...

virtual double	PrimordialParticleChargeSusceptibility (int i, ConservedCharge::Name chg) const
	Returns the computed primordial particle vs conserved charge (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_chg \rangle \) for particle with id i and conserved charge chg. CalculateFluctuations() must be called beforehand. More...

virtual double	PrimordialParticleChargeSusceptibilityByPdg (long long id1, ConservedCharge::Name chg)
	Returns the computed primordial particle vs conserved charge (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_chg \rangle \) for particle with pdg code id1 and conserved charge chg. CalculateFluctuations() must be called beforehand. More...

virtual double	PrimordialNetParticleChargeSusceptibilityByPdg (long long id1, ConservedCharge::Name chg)
	Returns the computed primordial net particle vs conserved charge (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_chg \rangle \) for particle with pdg code id1 and conserved charge chg. CalculateFluctuations() must be called beforehand. More...

virtual double	FinalParticleChargeSusceptibility (int i, ConservedCharge::Name chg) const
	Returns the computed final (after decays) particle vs conserved charge (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_chg \rangle \) for particle with id i and conserved charge chg. CalculateFluctuations() must be called beforehand. More...

virtual double	FinalParticleChargeSusceptibilityByPdg (long long id1, ConservedCharge::Name chg)
	Returns the computed final (after decays) particle vs conserved charge (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_chg \rangle \) for particle with pdg code id1 and conserved charge chg. CalculateFluctuations() must be called beforehand. More...

virtual double	FinalNetParticleChargeSusceptibilityByPdg (long long id1, ConservedCharge::Name chg)
	Returns the computed final (after decays) net particle vs conserved charge (cross-)susceptibility \( \frac{1}{VT^3} \, \langle \Delta N_i \Delta N_chg \rangle \) for particle with pdg code id1 and conserved charge chg. CalculateFluctuations() must be called beforehand. More...

virtual void	CalculateSusceptibilityMatrix ()
	Calculates the conserved charges susceptibility matrix. More...

virtual void	CalculateProxySusceptibilityMatrix ()
	Calculates the susceptibility matrix of conserved charges proxies. More...

virtual void	CalculateParticleChargeCorrelationMatrix ()
	Calculates the matrix of correlators between primordial (and also final) particle numbers and conserved charges. More...

virtual std::vector< double >	CalculateChargeFluctuations (const std::vector< double > &chgs, int order=4)
	Calculates fluctuations (diagonal susceptibilities) of an arbitrary "conserved" charge. More...

double	Pressure ()
	System pressure (GeV fm \(^{-3}\)) More...

double	EnergyDensity ()
	Energy density (GeV fm \(^{-3}\)) More...

double	EntropyDensity ()
	Entropy density (fm \(^{-3}\)) More...

double	HadronDensity ()
	Total number density of all particle (fm \(^{-3}\)) More...

double	BaryonDensity ()
	Net baryon density (fm \(^{-3}\)) More...

double	ElectricChargeDensity ()
	Electric charge density (fm \(^{-3}\)) More...

double	StrangenessDensity ()
	Net strangeness density (fm \(^{-3}\)) More...

double	CharmDensity ()
	Net charm density (fm \(^{-3}\)) More...

double	AbsoluteBaryonDensity ()
	Absolute baryon number density (baryons + antibaryons) (fm \(^{-3}\)) More...

double	AbsoluteElectricChargeDensity ()
	Absolute electric charge density (Q+ + Q-) (fm \(^{-3}\)) More...

double	AbsoluteStrangenessDensity ()
	Absolute strange quark content density (fm \(^{-3}\)) More...

double	AbsoluteCharmDensity ()
	Absolute charm quark content density (fm \(^{-3}\)) More...

virtual double	CalculateArbitraryChargeDensity ()
	Computes the density of the auxiliary ArbitraryCharge() More...

virtual double	ParticleSkewness (int)
	Skewness of primordial particle number fluctuations for species i. More...

virtual double	ParticleKurtosis (int)
	Kurtosis of primordial particle number fluctuations for species i. More...

virtual double	CalculateEigenvolumeFraction ()

virtual double	GetMaxDiff () const

virtual bool	IsLastSolutionOK () const

double	GetDensity (long long PDGID, int feeddown)
	Same as GetDensity(int,Feeddown::Type) More...

double	GetDensity (long long PDGID, Feeddown::Type feeddown)
	Particle number density of species with a specified PDG ID and feeddown. More...

double	GetYield (long long PDGID, Feeddown::Type feeddown)
	Particle number yield of species with a specified PDG ID and feeddown. More...

std::vector< double >	GetIdealGasDensities () const

ThermalParticleSystem *	TPS ()

const std::vector< double > &	Densities () const

const std::vector< double > &	TotalDensities () const

const std::vector< std::vector< double > > &	AllDensities () const

void	SetTAG (const std::string &tag)
	Set the tag for this ThermalModelBase object. More...

const std::string &	TAG () const
	The tag of this ThermalModelBase object. More...

void	ResetCalculatedFlags ()
	Reset all flags which correspond to a calculation status. More...

bool	IsCalculated () const

bool	IsFluctuationsCalculated () const

bool	IsGCECalculated () const

double	ScaledVariancePrimordial (int id) const
	Scaled variance of primordial particle number fluctuations for particle species id. More...

double	ScaledVarianceTotal (int id) const
	Scaled variance of final particle number fluctuations for particle species id. More...

double	SkewnessPrimordial (int id) const
	Normalized skewness of primordial particle number fluctuations for particle species id. More...

double	SkewnessTotal (int id) const
	Normalized skewness of final particle number fluctuations for particle species id. More...

double	KurtosisPrimordial (int id) const
	Normalized excess kurtosis of primordial particle number fluctuations for particle species id. More...

double	KurtosisTotal (int id) const
	Normalized excess kurtosis of final particle number fluctuations for particle species id. More...

double	ConservedChargeDensity (ConservedCharge::Name chg)
	A density of a conserved charge (in fm^-3) More...

double	Susc (ConservedCharge::Name i, ConservedCharge::Name j) const
	A 2nd order susceptibility of conserved charges. More...

double	ProxySusc (ConservedCharge::Name i, ConservedCharge::Name j) const
	A 2nd order susceptibility of conserved charges proxies. More...

double	ChargedMultiplicity (int type=0)
	Multiplicity of charged particles. More...

double	ChargedScaledVariance (int type=0)
	Scaled variance of charged particles. More...

double	ChargedMultiplicityFinal (int type=0)
	Multiplicity of charged particles including the feeddown contributions in accordance with the stability flags. More...

double	ChargedScaledVarianceFinal (int type=0)
	Scaled variance of charged particles including the feeddown contributions in accordance with the stability flags. More...

ThermalModelEnsemble	Ensemble ()
	The statistical ensemble of the current HRG model. More...

ThermalModelInteraction	InteractionModel ()
	The interactions present in the current HRG model. More...

void	SetNormBratio (bool normBratio)
	Whether branching ratios are renormalized to 100%. More...

bool	NormBratio () const

const ThermalModelParameters &	Parameters () const

virtual void	DisableMesonMesonVirial ()

void	DisableMesonMesonRepulsion ()

virtual void	DisableMesonBaryonVirial ()

void	DisableMesonBaryonRepulsion ()

virtual void	DisableBaryonBaryonVirial ()

void	DisableBaryonBaryonRepulsion ()

virtual void	DisableBaryonAntiBaryonVirial ()

void	DisableBaryonAntiBaryonRepulsion ()

virtual double	VirialCoefficient (int, int) const
	Excluded volume coefficient \( \tilde{b}_{ij} = 0 \). More...

double	RepulsionCoefficient (int i, int j) const

void	SetSoverB (double SB)
	The entropy per baryon ratio to be used to constrain the baryon chemical potential. More...

double	SoverB () const

void	SetQoverB (double QB)
	The electric-to-baryon charge ratio to be used to constrain the electric chemical potential. More...

double	QoverB () const

virtual double	CalculateHadronDensity ()

virtual double	CalculateBaryonDensity ()

virtual double	CalculateChargeDensity ()

virtual double	CalculateStrangenessDensity ()

virtual double	CalculateCharmDensity ()

virtual double	CalculateAbsoluteBaryonDensity ()

virtual double	CalculateAbsoluteChargeDensity ()

virtual double	CalculateAbsoluteStrangenessDensity ()

virtual double	CalculateAbsoluteCharmDensity ()

Protected Attributes
std::vector< double >	m_densitiesGCE

std::vector< double >	m_energydensitiesGCE

std::vector< double >	m_pressuresGCE

std::vector< int >	m_StrVals

std::map< int, int >	m_StrMap

std::vector< double >	m_Zsum

std::vector< double >	m_partialS

Protected Attributes inherited from thermalfist::ThermalModelBase
ThermalModelParameters	m_Parameters

ThermalParticleSystem *	m_TPS

bool	m_LastCalculationSuccessFlag

double	m_MaxDiff

bool	m_Calculated

bool	m_FeeddownCalculated

bool	m_FluctuationsCalculated

bool	m_GCECalculated

bool	m_UseWidth

bool	m_NormBratio

bool	m_QuantumStats

double	m_QBgoal

double	m_SBgoal

double	m_Volume

bool	m_ConstrainMuB

bool	m_ConstrainMuQ

bool	m_ConstrainMuS

bool	m_ConstrainMuC

bool	m_PCE

bool	m_useOpenMP

std::vector< double >	m_densities

std::vector< double >	m_densitiestotal

std::vector< std::vector< double > >	m_densitiesbyfeeddown

std::vector< double >	m_Chem

std::vector< double >	m_wprim

std::vector< double >	m_wtot

std::vector< double >	m_skewprim

std::vector< double >	m_skewtot

std::vector< double >	m_kurtprim

std::vector< double >	m_kurttot

std::vector< std::vector< double > >	m_PrimCorrel

std::vector< std::vector< double > >	m_TotalCorrel

std::vector< std::vector< double > >	m_PrimChargesCorrel

std::vector< std::vector< double > >	m_FinalChargesCorrel

std::vector< std::vector< double > >	m_Susc

std::vector< std::vector< double > >	m_ProxySusc

std::string	m_ValidityLog

double	m_wnSum

std::string	m_TAG

ThermalModelEnsemble	m_Ensemble

ThermalModelInteraction	m_InteractionModel

Additional Inherited Members
Public Types inherited from thermalfist::ThermalModelBase
enum	ThermalModelEnsemble { GCE = 0, CE = 1, SCE = 2, CCE = 3 }
	The list of statistical ensembles. More...

enum	ThermalModelInteraction { Ideal = 0, DiagonalEV = 1, CrosstermsEV = 2, QvdW = 3, RealGas = 4, MeanField = 5 }
	Type of interactions included in the HRG model. More...

Protected Member Functions inherited from thermalfist::ThermalModelBase
virtual double	MuShift (int) const
	Shift in chemical potential of particle species id due to interactions. More...

Detailed Description

Class implementing the ideal HRG model with exact conservation of strangeness (strangeness-canonical ensemble).

Assumes that the net strangeness should be equal to zero.

Assumes there are no particles with strangeness larger than 3.

Applies Maxwell-Boltzmann statistics to all strange particles.

Fluctuation observables are not supported.

Definition at line 33 of file ThermalModelCanonicalStrangeness.h.

Constructor & Destructor Documentation

thermalfist::ThermalModelCanonicalStrangeness::ThermalModelCanonicalStrangeness	(	ThermalParticleSystem *	TPS,
		const ThermalModelParameters &	params = `ThermalModelParameters()`
	)

Construct a new ThermalModelCanonicalStrangeness object.

Parameters

TPS	A pointer to the ThermalParticleSystem object containing the particle list
params	ThermalModelParameters object with current thermal parameters

Definition at line 16 of file ThermalModelCanonicalStrangeness.cpp.

thermalfist::ThermalModelCanonicalStrangeness::~ThermalModelCanonicalStrangeness ( void )

virtual

Destroy the ThermalModelCanonicalStrangeness object.

Definition at line 41 of file ThermalModelCanonicalStrangeness.cpp.

Member Function Documentation

virtual double thermalfist::ThermalModelCanonicalStrangeness::CalculateBaryonMatterEntropyDensity ( )

inlinevirtual

The fraction of entropy carried by baryons (Ideal GCE only)

Reimplemented from thermalfist::ThermalModelBase.

Definition at line 122 of file ThermalModelCanonicalStrangeness.h.

void thermalfist::ThermalModelCanonicalStrangeness::CalculateDensitiesGCE ( )

virtual

Calculates the particle densities in a grand-canonical ensemble.

A non-GCE based derived class will override this method.

Reimplemented from thermalfist::ThermalModelBase.

Reimplemented in thermalfist::ThermalModelEVCanonicalStrangeness, and thermalfist::ThermalModelVDWCanonicalStrangeness.

Definition at line 75 of file ThermalModelCanonicalStrangeness.cpp.

void thermalfist::ThermalModelCanonicalStrangeness::CalculateEnergyDensitiesGCE ( )

virtual

Calculates the grand-canonical energy densities.

Reimplemented in thermalfist::ThermalModelVDWCanonicalStrangeness, and thermalfist::ThermalModelEVCanonicalStrangeness.

Definition at line 82 of file ThermalModelCanonicalStrangeness.cpp.

double thermalfist::ThermalModelCanonicalStrangeness::CalculateEnergyDensity ( )

virtual

Implements thermalfist::ThermalModelBase.

Reimplemented in thermalfist::ThermalModelEVCanonicalStrangeness, and thermalfist::ThermalModelVDWCanonicalStrangeness.

Definition at line 177 of file ThermalModelCanonicalStrangeness.cpp.

double thermalfist::ThermalModelCanonicalStrangeness::CalculateEntropyDensity ( )

virtual

Implements thermalfist::ThermalModelBase.

Reimplemented in thermalfist::ThermalModelEVCanonicalStrangeness, and thermalfist::ThermalModelVDWCanonicalStrangeness.

Definition at line 190 of file ThermalModelCanonicalStrangeness.cpp.

void thermalfist::ThermalModelCanonicalStrangeness::CalculateFluctuations ( )

virtual

Dummy function. Fluctuations not yet supported.

Reimplemented from thermalfist::ThermalModelBase.

Definition at line 165 of file ThermalModelCanonicalStrangeness.cpp.

virtual double thermalfist::ThermalModelCanonicalStrangeness::CalculateMesonMatterEntropyDensity ( )

inlinevirtual

The fraction of entropy carried by mesons (Ideal GCE only)

Reimplemented from thermalfist::ThermalModelBase.

Definition at line 124 of file ThermalModelCanonicalStrangeness.h.

double thermalfist::ThermalModelCanonicalStrangeness::CalculatePressure ( )

virtual

Implementation of the equation of state functions.

Implements thermalfist::ThermalModelBase.

Reimplemented in thermalfist::ThermalModelEVCanonicalStrangeness, and thermalfist::ThermalModelVDWCanonicalStrangeness.

Definition at line 206 of file ThermalModelCanonicalStrangeness.cpp.

void thermalfist::ThermalModelCanonicalStrangeness::CalculatePressuresGCE ( )

virtual

Calculates the grand-canonical pressures.

Reimplemented in thermalfist::ThermalModelVDWCanonicalStrangeness, and thermalfist::ThermalModelEVCanonicalStrangeness.

Definition at line 89 of file ThermalModelCanonicalStrangeness.cpp.

void thermalfist::ThermalModelCanonicalStrangeness::CalculatePrimordialDensities ( )

virtual

Calculates the primordial densities of all species.

Calculates the primordial densities by applying the canonical corrections factors to the grand-canonical densities.

Implements thermalfist::ThermalModelBase.

Reimplemented in thermalfist::ThermalModelEVCanonicalStrangeness, and thermalfist::ThermalModelVDWCanonicalStrangeness.

Definition at line 140 of file ThermalModelCanonicalStrangeness.cpp.

void thermalfist::ThermalModelCanonicalStrangeness::CalculateSums ( double Vc )

virtual

Calculates the strangeness-canonical partition functions.

Uses the series over the Bessel functions as described in https://arxiv.org/pdf/hep-ph/0106066.pdf

Parameters

Vc	The strangeness correlation volume (fm \(^3\))

Definition at line 97 of file ThermalModelCanonicalStrangeness.cpp.

void thermalfist::ThermalModelCanonicalStrangeness::ChangeTPS ( ThermalParticleSystem * TPS )

virtual

Change the particle list.

Parameters

TPS	A pointer to new particle list.

Reimplemented from thermalfist::ThermalModelBase.

Definition at line 56 of file ThermalModelCanonicalStrangeness.cpp.

const std::vector<double>& thermalfist::ThermalModelCanonicalStrangeness::DensitiesGCE ( ) const

inline

A vector of the grand-canonical particle number densities.

Definition at line 67 of file ThermalModelCanonicalStrangeness.h.

void thermalfist::ThermalModelCanonicalStrangeness::FixParameters ( )

virtual

Method which actually implements ConstrainChemicalPotentials() (for backward compatibility).

Ensures that charm chemical potential should not be computed.

Reimplemented from thermalfist::ThermalModelBase.

Definition at line 60 of file ThermalModelCanonicalStrangeness.cpp.

bool thermalfist::ThermalModelCanonicalStrangeness::IsConservedChargeCanonical ( ConservedCharge::Name charge ) const

virtual

Whether the given conserved charge is treated canonically.

Reimplemented from thermalfist::ThermalModelBase.

Reimplemented in thermalfist::ThermalModelEVCanonicalStrangeness, and thermalfist::ThermalModelVDWCanonicalStrangeness.

Definition at line 216 of file ThermalModelCanonicalStrangeness.cpp.

virtual double thermalfist::ThermalModelCanonicalStrangeness::ParticleScalarDensity ( int i )

inlinevirtual

The scalar density of the particle species i.

Implements thermalfist::ThermalModelBase.

Definition at line 128 of file ThermalModelCanonicalStrangeness.h.

virtual double thermalfist::ThermalModelCanonicalStrangeness::ParticleScaledVariance ( int )

inlinevirtual

Scaled variance of primordial particle number fluctuations for species i.

Reimplemented from thermalfist::ThermalModelBase.

Definition at line 126 of file ThermalModelCanonicalStrangeness.h.

void thermalfist::ThermalModelCanonicalStrangeness::SetParameters ( const ThermalModelParameters & params )

virtual

The thermal parameters.

Parameters

params The thermal parameters to be used Ensures that strangeness chemical potential is zero.

Reimplemented from thermalfist::ThermalModelBase.

Definition at line 46 of file ThermalModelCanonicalStrangeness.cpp.

void thermalfist::ThermalModelCanonicalStrangeness::SetStatistics ( bool stats )

virtual

Set whether quantum statistics is used, 0 - Boltzmann, 1 - Quantum Ensures that the Maxwell-Boltzmann statistics are applied to all strange particles.

Reimplemented from thermalfist::ThermalModelBase.

Definition at line 68 of file ThermalModelCanonicalStrangeness.cpp.

void thermalfist::ThermalModelCanonicalStrangeness::SetStrangenessChemicalPotential ( double muS )

virtual

Override the base class method to always set \( \mu_S \) to zero.

Parameters