LORENE
Lorene::Eos_strange Class Reference

Strange matter EOS (MIT Bag model). More...

#include <eos.h>

Inheritance diagram for Lorene::Eos_strange:
Lorene::Eos

Public Member Functions

 Eos_strange (double n0_b60_i, double b60_i, double ent0_i, double eps_fit_i, double rho0_b60_i)
 Standard constructor.
 
 Eos_strange (const Eos_strange &)
 Copy constructor

 
virtual ~Eos_strange ()
 Destructor.
 
void operator= (const Eos_strange &)
 Assignment to another Eos_strange.
 
virtual bool operator== (const Eos &) const
 Comparison operator (egality)
 
virtual bool operator!= (const Eos &) const
 Comparison operator (difference)
 
virtual int identify () const
 Returns a number to identify the sub-classe of Eos the object belongs to.
 
double get_n0_b60 () const
 Returns the baryon density at zero pressure divided by $B_{60}^{3/4}$ [unit: ${\rm fm}^{-3}$].
 
double get_b60 () const
 Returns the bag constant [unit: $60\ {\rm MeV\, fm}^{-3}$].
 
double get_ent0 () const
 Returns the log-enthalpy threshold for setting the energy density to a non zero value (should be negative).
 
double get_eps_fit () const
 Returns the fitting parameter $\epsilon_{\rm fit}$ related to the square of sound velocity by $c_s^2 = 1/3(1+\epsilon_{\rm fit})$.
 
double get_rho0_b60 () const
 Returns the energy density at zero pressure divided by $B_{60}$.
 
virtual void sauve (FILE *) const
 Save in a file.
 
virtual double nbar_ent_p (double ent, const Param *par=0x0) const
 Computes the baryon density from the log-enthalpy.
 
virtual double ener_ent_p (double ent, const Param *par=0x0) const
 Computes the total energy density from the log-enthalpy.
 
virtual double press_ent_p (double ent, const Param *par=0x0) const
 Computes the pressure from the log-enthalpy.
 
virtual double der_nbar_ent_p (double ent, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln n/d\ln H$ from the log-enthalpy.
 
virtual double der_ener_ent_p (double ent, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln e/d\ln H$ from the log-enthalpy.
 
virtual double der_press_ent_p (double ent, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln p/d\ln H$ from the log-enthalpy.
 
const charget_name () const
 Returns the EOS name.
 
void set_name (const char *name_i)
 Sets the EOS name.
 
Cmp nbar_ent (const Cmp &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the baryon density field from the log-enthalpy field and extra parameters.
 
Scalar nbar_ent (const Scalar &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the baryon density field from the log-enthalpy field and extra parameters.
 
Cmp ener_ent (const Cmp &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the total energy density from the log-enthalpy and extra parameters.
 
Scalar ener_ent (const Scalar &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the total energy density from the log-enthalpy and extra parameters.
 
Cmp press_ent (const Cmp &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the pressure from the log-enthalpy and extra parameters.
 
Scalar press_ent (const Scalar &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the pressure from the log-enthalpy and extra parameters.
 
Cmp der_nbar_ent (const Cmp &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln n/d\ln H$ from the log-enthalpy and extra parameters.
 
Scalar der_nbar_ent (const Scalar &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln n/d\ln H$ from the log-enthalpy and extra parameters.
 
Cmp der_ener_ent (const Cmp &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln e/d\ln H$ from the log-enthalpy and extra parameters.
 
Scalar der_ener_ent (const Scalar &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln e/d\ln H$ from the log-enthalpy and extra parameters.
 
Cmp der_press_ent (const Cmp &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln p/d\ln H$ from the log-enthalpy and extra parameters.
 
Scalar der_press_ent (const Scalar &ent, int nzet, int l_min=0, const Param *par=0x0) const
 Computes the logarithmic derivative $d\ln p/d\ln H$ from the log-enthalpy and extra parameters.
 

Static Public Member Functions

static Eoseos_from_file (FILE *)
 Construction of an EOS from a binary file.
 
static Eoseos_from_file (ifstream &)
 Construction of an EOS from a formatted file.
 

Protected Member Functions

 Eos_strange (FILE *)
 Constructor from a binary file (created by the function sauve(FILE*) ).
 
 Eos_strange (ifstream &)
 Constructor from a formatted file.
 
void set_auxiliary ()
 Computes the auxiliary quantities n0 , rh0 , b34 and fach from the values of the other parameters.
 
virtual ostreamoperator>> (ostream &) const
 Operator >>
 
void calcule (const Cmp &thermo, int nzet, int l_min, double(Eos::*fait)(double, const Param *) const, const Param *par, Cmp &resu) const
 General computational method for Cmp 's.
 
void calcule (const Scalar &thermo, int nzet, int l_min, double(Eos::*fait)(double, const Param *) const, const Param *par, Scalar &resu) const
 General computational method for Scalar 's.
 

Protected Attributes

double n0_b60
 Baryon density at zero pressure divided by $B_{60}^{3/4}$.
 
double b60
 Bag constant [unit: $60\ {\rm MeV\, fm}^{-3}$].
 
double ent0
 Log-enthalpy threshold for setting the energy density to a non zero value (should be negative).
 
double eps_fit
 Fitting parameter $\epsilon_{\rm fit}$ related to the square of sound velocity by $c_s^2 = 1/3(1+\epsilon_{\rm fit})$.
 
double rho0_b60
 Energy density at zero pressure divided by $B_{60}$.
 
double n0
 Baryon density at zero pressure.
 
double rho0
 Energy density at zero pressure.
 
double b34
 $B_{60}^{3/4}$
 
double fach
 Factor $(4+\epsilon_{\rm fit})/(1+\epsilon_{\rm fit})$.
 
char name [100]
 EOS name.
 

Friends

EosEos::eos_from_file (FILE *)
 The construction functions from a file.
 
EosEos::eos_from_file (ifstream &)
 

Detailed Description

Strange matter EOS (MIT Bag model).

This equation of state (EOS) corresponds to u,d,s degenerate symetric matter in the MIT bag model, according to approximate formula given in Zdunik, Astron. Astrophys. 359 , 311 (2000). ()

Definition at line 1540 of file eos.h.

Constructor & Destructor Documentation

◆ Eos_strange() [1/4]

Lorene::Eos_strange::Eos_strange ( double  n0_b60_i,
double  b60_i,
double  ent0_i,
double  eps_fit_i,
double  rho0_b60_i 
)

Standard constructor.

Parameters
n0_b60_iBaryon density at zero pressure divided by $B_{60}^{3/4}$ [unit: ${\rm fm}^{-3}$]
b60_iBag constant [unit: $60\ {\rm MeV\, fm}^{-3}$]
ent0_iLog-enthalpy threshold for setting the energy density to a non zero value (should be negative)
eps_fit_iFitting parameter $\epsilon_{\rm fit}$ related to the square of sound velocity by $c_s^2 = 1/3(1+\epsilon_{\rm fit})$ [cf. Zdunik, Astron. Astrophys. 359 , 311 (2000)]
rho0_b60_iEnergy density at zero pressure divided by $B_{60}$ [unit: ${\rm MeV\,  fm^{-3}}$]

Definition at line 98 of file eos_strange.C.

References set_auxiliary().

◆ Eos_strange() [2/4]

Lorene::Eos_strange::Eos_strange ( const Eos_strange eos_i)

Copy constructor

Definition at line 114 of file eos_strange.C.

References set_auxiliary().

◆ Eos_strange() [3/4]

Lorene::Eos_strange::Eos_strange ( FILE fich)
protected

Constructor from a binary file (created by the function sauve(FILE*) ).

This constructor is protected because any EOS construction from a binary file must be done via the function Eos::eos_from_file(FILE*) .

Definition at line 129 of file eos_strange.C.

References b60, ent0, eps_fit, Lorene::fread_be(), n0_b60, rho0_b60, and set_auxiliary().

◆ Eos_strange() [4/4]

Lorene::Eos_strange::Eos_strange ( ifstream fich)
protected

Constructor from a formatted file.

This constructor is protected because any EOS construction from a formatted file must be done via the function Eos::eos_from_file(ifstream&) .

Definition at line 144 of file eos_strange.C.

References b60, ent0, eps_fit, n0_b60, rho0_b60, and set_auxiliary().

◆ ~Eos_strange()

Lorene::Eos_strange::~Eos_strange ( )
virtual

Destructor.

Definition at line 162 of file eos_strange.C.

Member Function Documentation

◆ calcule() [1/2]

void Lorene::Eos::calcule ( const Cmp thermo,
int  nzet,
int  l_min,
double(Eos::*)(double, const Param *) const  fait,
const Param par,
Cmp resu 
) const
protectedinherited

General computational method for Cmp 's.

Parameters
thermo[input] thermodynamical quantity (for instance the enthalpy field)from which the thermodynamical quantity resu is to be computed.
nzet[input] number of domains where resu is to be computed.
l_min[input] index of the innermost domain is which resu is to be computed [default value: 0]; resu is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
fait[input] pointer on the member function of class Eos which performs the pointwise calculation.
parpossible extra parameters of the EOS
resu[output] result of the computation.

Definition at line 203 of file eos.C.

◆ calcule() [2/2]

void Lorene::Eos::calcule ( const Scalar thermo,
int  nzet,
int  l_min,
double(Eos::*)(double, const Param *) const  fait,
const Param par,
Scalar resu 
) const
protectedinherited

General computational method for Scalar 's.

Parameters
thermo[input] thermodynamical quantity (for instance the enthalpy field)from which the thermodynamical quantity resu is to be computed.
nzet[input] number of domains where resu is to be computed.
l_min[input] index of the innermost domain is which resu is to be computed [default value: 0]; resu is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
fait[input] pointer on the member function of class Eos which performs the pointwise calculation.
parpossible extra parameters of the EOS
resu[output] result of the computation.

Definition at line 268 of file eos.C.

◆ der_ener_ent() [1/2]

Cmp Lorene::Eos::der_ener_ent ( const Cmp ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the logarithmic derivative $d\ln e/d\ln H$ from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the derivative dln(e)/dln(H) is to be computed.
l_minindex of the innermost domain is which the coefficient dln(n)/dln(H) is to be computed [default value: 0]; the derivative dln(e)/dln(H) is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
dln(e)/dln(H)

Definition at line 430 of file eos.C.

References Lorene::Cmp::get_mp().

◆ der_ener_ent() [2/2]

Scalar Lorene::Eos::der_ener_ent ( const Scalar ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the logarithmic derivative $d\ln e/d\ln H$ from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the derivative dln(e)/dln(H) is to be computed.
l_minindex of the innermost domain is which the coefficient dln(n)/dln(H) is to be computed [default value: 0]; the derivative dln(e)/dln(H) is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
dln(e)/dln(H)

Definition at line 440 of file eos.C.

References Lorene::Tensor::get_mp().

◆ der_ener_ent_p()

double Lorene::Eos_strange::der_ener_ent_p ( double  ent,
const Param par = 0x0 
) const
virtual

Computes the logarithmic derivative $d\ln e/d\ln H$ from the log-enthalpy.

Parameters
ent[input, unit: $c^2$] log-enthalpy H
Returns
dln(e)/dln(H)

Implements Lorene::Eos.

Definition at line 379 of file eos_strange.C.

References ent0, eps_fit, Lorene::exp(), and fach.

◆ der_nbar_ent() [1/2]

Cmp Lorene::Eos::der_nbar_ent ( const Cmp ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the logarithmic derivative $d\ln n/d\ln H$ from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the derivative dln(n)/dln(H) is to be computed.
l_minindex of the innermost domain is which the coefficient dln(n)/dln(H) is to be computed [default value: 0]; the derivative dln(n)/dln(H) is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
dln(n)/dln(H)

Definition at line 407 of file eos.C.

References Lorene::Cmp::get_mp().

◆ der_nbar_ent() [2/2]

Scalar Lorene::Eos::der_nbar_ent ( const Scalar ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the logarithmic derivative $d\ln n/d\ln H$ from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the derivative dln(n)/dln(H) is to be computed.
l_minindex of the innermost domain is which the coefficient dln(n)/dln(H) is to be computed [default value: 0]; the derivative dln(n)/dln(H) is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
dln(n)/dln(H)

Definition at line 417 of file eos.C.

References Lorene::Tensor::get_mp().

◆ der_nbar_ent_p()

double Lorene::Eos_strange::der_nbar_ent_p ( double  ent,
const Param par = 0x0 
) const
virtual

Computes the logarithmic derivative $d\ln n/d\ln H$ from the log-enthalpy.

Parameters
ent[input, unit: $c^2$] log-enthalpy H
Returns
dln(n)/dln(H)

Implements Lorene::Eos.

Definition at line 364 of file eos_strange.C.

References ent0, and eps_fit.

◆ der_press_ent() [1/2]

Cmp Lorene::Eos::der_press_ent ( const Cmp ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the logarithmic derivative $d\ln p/d\ln H$ from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the derivative dln(p)/dln(H) is to be computed.
parpossible extra parameters of the EOS
l_minindex of the innermost domain is which the coefficient dln(n)/dln(H) is to be computed [default value: 0]; the derivative dln(p)/dln(H) is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
Returns
dln(p)/dln(H)

Definition at line 452 of file eos.C.

References Lorene::Cmp::get_mp().

◆ der_press_ent() [2/2]

Scalar Lorene::Eos::der_press_ent ( const Scalar ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the logarithmic derivative $d\ln p/d\ln H$ from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the derivative dln(p)/dln(H) is to be computed.
parpossible extra parameters of the EOS
l_minindex of the innermost domain is which the coefficient dln(n)/dln(H) is to be computed [default value: 0]; the derivative dln(p)/dln(H) is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
Returns
dln(p)/dln(H)

Definition at line 462 of file eos.C.

References Lorene::Tensor::get_mp().

◆ der_press_ent_p()

double Lorene::Eos_strange::der_press_ent_p ( double  ent,
const Param par = 0x0 
) const
virtual

Computes the logarithmic derivative $d\ln p/d\ln H$ from the log-enthalpy.

Parameters
ent[input, unit: $c^2$] log-enthalpy H
Returns
dln(p)/dln(H)

Implements Lorene::Eos.

Definition at line 397 of file eos_strange.C.

References ent0, Lorene::exp(), and fach.

◆ ener_ent() [1/2]

Cmp Lorene::Eos::ener_ent ( const Cmp ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the total energy density from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the energy density is to be computed.
l_minindex of the innermost domain is which the energy density is to be computed [default value: 0]; the energy density is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
energy density [unit: $\rho_{\rm nuc} c^2$], where $\rho_{\rm nuc} := 1.66\ 10^{17} \ {\rm kg/m}^3$

Definition at line 363 of file eos.C.

References Lorene::Cmp::get_mp().

◆ ener_ent() [2/2]

Scalar Lorene::Eos::ener_ent ( const Scalar ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the total energy density from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the energy density is to be computed.
l_minindex of the innermost domain is which the energy density is to be computed [default value: 0]; the energy density is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
energy density [unit: $\rho_{\rm nuc} c^2$], where $\rho_{\rm nuc} := 1.66\ 10^{17} \ {\rm kg/m}^3$

Definition at line 373 of file eos.C.

References Lorene::Tensor::get_mp().

◆ ener_ent_p()

double Lorene::Eos_strange::ener_ent_p ( double  ent,
const Param par = 0x0 
) const
virtual

Computes the total energy density from the log-enthalpy.

Parameters
ent[input, unit: $c^2$] log-enthalpy H
Returns
energy density e [unit: $\rho_{\rm nuc} c^2$], where $\rho_{\rm nuc} := 1.66\ 10^{17} \ {\rm kg/m}^3$

Implements Lorene::Eos.

Definition at line 329 of file eos_strange.C.

References ent0, eps_fit, Lorene::exp(), fach, and rho0.

◆ eos_from_file() [1/2]

Eos * Lorene::Eos::eos_from_file ( FILE fich)
staticinherited

Construction of an EOS from a binary file.

The file must have been created by the function sauve(FILE*) .

Definition at line 177 of file eos_from_file.C.

References Lorene::fread_be().

◆ eos_from_file() [2/2]

Eos * Lorene::Eos::eos_from_file ( ifstream fich)
staticinherited

Construction of an EOS from a formatted file.

The fist line of the file must start by the EOS number, according to the following conventions:

  • 1 = relativistic polytropic EOS (class Eos_poly ).
  • 2 = Newtonian polytropic EOS (class Eos_poly_newt ).
  • 3 = Relativistic incompressible EOS (class Eos_incomp ).
  • 4 = Newtonian incompressible EOS (class Eos_incomp_newt ).
  • 5 = Strange matter (MIT Bag model)
  • 6 = Strange matter (MIT Bag model) with crust
  • 10 = SLy4 (Douchin & Haensel 2001)
  • 11 = FPS (Friedman-Pandharipande + Skyrme)
  • 12 = BPAL12 (Bombaci et al. 1995)
  • 13 = AkmalPR (Akmal, Pandharipande & Ravenhall 1998)
  • 14 = BBB2 (Baldo, Bombaci & Burgio 1997)
  • 15 = BalbN1H1 (Balberg 2000)
  • 16 = GlendNH3 (Glendenning 1985, case 3)
  • 17 = Compstar (Tabulated EOS for 2010 CompStar school)
  • 18 = magnetized (tabulated) equation of state
  • 19 = relativistic ideal Fermi gas at zero temperature (class Eos_Fermi)
  • 100 = Multi-domain EOS (class MEos )
  • 110 = Multi-polytropic EOS (class Eos_multi_poly )
  • 120 = Fitted SLy4 (Shibata 2004)
  • 121 = Fitted FPS (Shibata 2004)
  • 122 = Fitted AkmalPR (Taniguchi 2005)

The second line in the file should contain a name given by the user to the EOS. The following lines should contain the EOS parameters (one parameter per line), in the same order than in the class declaration.

Definition at line 314 of file eos_from_file.C.

◆ get_b60()

double Lorene::Eos_strange::get_b60 ( ) const
inline

Returns the bag constant [unit: $60\ {\rm MeV\, fm}^{-3}$].

Definition at line 1666 of file eos.h.

References b60.

◆ get_ent0()

double Lorene::Eos_strange::get_ent0 ( ) const
inline

Returns the log-enthalpy threshold for setting the energy density to a non zero value (should be negative).


Definition at line 1671 of file eos.h.

References ent0.

◆ get_eps_fit()

double Lorene::Eos_strange::get_eps_fit ( ) const
inline

Returns the fitting parameter $\epsilon_{\rm fit}$ related to the square of sound velocity by $c_s^2 = 1/3(1+\epsilon_{\rm fit})$.

[cf. Zdunik, Astron. Astrophys. 359 , 311 (2000)]

Definition at line 1677 of file eos.h.

References eps_fit.

◆ get_n0_b60()

double Lorene::Eos_strange::get_n0_b60 ( ) const
inline

Returns the baryon density at zero pressure divided by $B_{60}^{3/4}$ [unit: ${\rm fm}^{-3}$].

Definition at line 1663 of file eos.h.

References n0_b60.

◆ get_name()

const char * Lorene::Eos::get_name ( ) const
inherited

Returns the EOS name.

Definition at line 169 of file eos.C.

References Lorene::Eos::name.

◆ get_rho0_b60()

double Lorene::Eos_strange::get_rho0_b60 ( ) const
inline

Returns the energy density at zero pressure divided by $B_{60}$.

[unit: $\rho_{\rm nuc} := 1.66\ 10^{17} \ {\rm kg/m}^3$]

Definition at line 1682 of file eos.h.

References rho0_b60.

◆ identify()

int Lorene::Eos_strange::identify ( ) const
virtual

Returns a number to identify the sub-classe of Eos the object belongs to.

Implements Lorene::Eos.

Definition at line 137 of file eos_from_file.C.

◆ nbar_ent() [1/2]

Cmp Lorene::Eos::nbar_ent ( const Cmp ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the baryon density field from the log-enthalpy field and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the baryon density is to be computed.
l_minindex of the innermost domain is which the baryon density is to be computed [default value: 0]; the baryon density is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
baryon density [unit: $n_{\rm nuc} := 0.1 \ {\rm fm}^{-3}$]

Definition at line 338 of file eos.C.

References Lorene::Cmp::get_mp().

◆ nbar_ent() [2/2]

Scalar Lorene::Eos::nbar_ent ( const Scalar ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the baryon density field from the log-enthalpy field and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the baryon density is to be computed.
l_minindex of the innermost domain is which the baryon density is to be computed [default value: 0]; the baryon density is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
baryon density [unit: $n_{\rm nuc} := 0.1 \ {\rm fm}^{-3}$]

Definition at line 348 of file eos.C.

References Lorene::Tensor::get_mp().

◆ nbar_ent_p()

double Lorene::Eos_strange::nbar_ent_p ( double  ent,
const Param par = 0x0 
) const
virtual

Computes the baryon density from the log-enthalpy.

Parameters
ent[input, unit: $c^2$] log-enthalpy H
Returns
baryon density n [unit: $n_{\rm nuc} := 0.1 \ {\rm fm}^{-3}$]

Implements Lorene::Eos.

Definition at line 314 of file eos_strange.C.

References ent0, eps_fit, Lorene::exp(), and n0.

◆ operator!=()

bool Lorene::Eos_strange::operator!= ( const Eos eos_i) const
virtual

Comparison operator (difference)

Implements Lorene::Eos.

Definition at line 265 of file eos_strange.C.

References operator==().

◆ operator=()

void Lorene::Eos_strange::operator= ( const Eos_strange eosi)

Assignment to another Eos_strange.

Definition at line 172 of file eos_strange.C.

References b60, ent0, eps_fit, n0_b60, Lorene::Eos::name, rho0_b60, set_auxiliary(), and Lorene::Eos::set_name().

◆ operator==()

bool Lorene::Eos_strange::operator== ( const Eos eos_i) const
virtual

Comparison operator (egality)

Implements Lorene::Eos.

Definition at line 211 of file eos_strange.C.

References b60, ent0, eps_fit, identify(), Lorene::Eos::identify(), n0_b60, and rho0_b60.

◆ operator>>()

ostream & Lorene::Eos_strange::operator>> ( ostream ost) const
protectedvirtual

Operator >>

Implements Lorene::Eos.

Definition at line 287 of file eos_strange.C.

References b60, ent0, eps_fit, n0_b60, and rho0_b60.

◆ press_ent() [1/2]

Cmp Lorene::Eos::press_ent ( const Cmp ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the pressure from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the pressure is to be computed.
l_minindex of the innermost domain is which the pressure is to be computed [default value: 0]; the pressure is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
pressure [unit: $\rho_{\rm nuc} c^2$], where $\rho_{\rm nuc} := 1.66\ 10^{17} \ {\rm kg/m}^3$

Definition at line 385 of file eos.C.

References Lorene::Cmp::get_mp().

◆ press_ent() [2/2]

Scalar Lorene::Eos::press_ent ( const Scalar ent,
int  nzet,
int  l_min = 0,
const Param par = 0x0 
) const
inherited

Computes the pressure from the log-enthalpy and extra parameters.

Parameters
ent[input, unit: $c^2$] log-enthalpy H defined by $H = c^2 \ln\left( {e+p \over m_B c^2 n} \right) $, where e is the (total) energy density, p the pressure, n the baryon density, and $m_B$ the baryon mass
nzetnumber of domains where the pressure is to be computed.
l_minindex of the innermost domain is which the pressure is to be computed [default value: 0]; the pressure is computed only in domains whose indices are in [l_min,l_min+nzet-1] . In the other domains, it is set to zero.
parpossible extra parameters of the EOS
Returns
pressure [unit: $\rho_{\rm nuc} c^2$], where $\rho_{\rm nuc} := 1.66\ 10^{17} \ {\rm kg/m}^3$

Definition at line 395 of file eos.C.

References Lorene::Tensor::get_mp().

◆ press_ent_p()

double Lorene::Eos_strange::press_ent_p ( double  ent,
const Param par = 0x0 
) const
virtual

Computes the pressure from the log-enthalpy.

Parameters
ent[input, unit: $c^2$] log-enthalpy H
Returns
pressure p [unit: $\rho_{\rm nuc} c^2$], where $\rho_{\rm nuc} := 1.66\ 10^{17} \ {\rm kg/m}^3$

Implements Lorene::Eos.

Definition at line 347 of file eos_strange.C.

References ent0, Lorene::exp(), fach, and rho0.

◆ sauve()

void Lorene::Eos_strange::sauve ( FILE fich) const
virtual

Save in a file.

Reimplemented from Lorene::Eos.

Definition at line 275 of file eos_strange.C.

References b60, ent0, eps_fit, Lorene::fwrite_be(), n0_b60, rho0_b60, and Lorene::Eos::sauve().

◆ set_auxiliary()

void Lorene::Eos_strange::set_auxiliary ( )
protected

Computes the auxiliary quantities n0 , rh0 , b34 and fach from the values of the other parameters.

Definition at line 191 of file eos_strange.C.

References b34, b60, eps_fit, fach, n0, n0_b60, Lorene::pow(), rho0, and rho0_b60.

◆ set_name()

void Lorene::Eos::set_name ( const char name_i)
inherited

Sets the EOS name.

Definition at line 163 of file eos.C.

References Lorene::Eos::name.

Friends And Related Symbol Documentation

◆ Eos::eos_from_file

Eos * Eos::eos_from_file ( FILE )
friend

The construction functions from a file.

Member Data Documentation

◆ b34

double Lorene::Eos_strange::b34
protected

$B_{60}^{3/4}$

Definition at line 1584 of file eos.h.

◆ b60

double Lorene::Eos_strange::b60
protected

Bag constant [unit: $60\ {\rm MeV\, fm}^{-3}$].

Definition at line 1552 of file eos.h.

◆ ent0

double Lorene::Eos_strange::ent0
protected

Log-enthalpy threshold for setting the energy density to a non zero value (should be negative).


Definition at line 1557 of file eos.h.

◆ eps_fit

double Lorene::Eos_strange::eps_fit
protected

Fitting parameter $\epsilon_{\rm fit}$ related to the square of sound velocity by $c_s^2 = 1/3(1+\epsilon_{\rm fit})$.

[cf. Zdunik, Astron. Astrophys. 359 , 311 (2000)]

Definition at line 1563 of file eos.h.

◆ fach

double Lorene::Eos_strange::fach
protected

Factor $(4+\epsilon_{\rm fit})/(1+\epsilon_{\rm fit})$.

Definition at line 1589 of file eos.h.

◆ n0

double Lorene::Eos_strange::n0
protected

Baryon density at zero pressure.

[unit: $0.1{\rm \  fm}^{-3}$ (Lorene's unit)]

Definition at line 1573 of file eos.h.

◆ n0_b60

double Lorene::Eos_strange::n0_b60
protected

Baryon density at zero pressure divided by $B_{60}^{3/4}$.

[unit: ${\rm fm}^{-3}$]

Definition at line 1549 of file eos.h.

◆ name

char Lorene::Eos::name[100]
protectedinherited

EOS name.

Definition at line 196 of file eos.h.

◆ rho0

double Lorene::Eos_strange::rho0
protected

Energy density at zero pressure.

[unit: $\rho_{\rm nuc} := 1.66\ 10^{17} \ {\rm kg/m}^3$ (Lorene's unit)]

Definition at line 1579 of file eos.h.

◆ rho0_b60

double Lorene::Eos_strange::rho0_b60
protected

Energy density at zero pressure divided by $B_{60}$.

[unit: ${\rm MeV\,  fm^{-3}}$]

Definition at line 1568 of file eos.h.


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