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Equation of State Sub-Library: Version 0.910
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Simple bag model. More...
#include <bag_eos.h>
An equation of state with where
is the Fermi gas contribution from particle
and
is a density- and temperature-independent bag constant.
The finite temperature functions run the zero temperature code if the temperature is less than or equal to 0.
Public Member Functions | |
virtual int | calc_p (quark &u, quark &d, quark &s, thermo &th) |
Calculate equation of state as a function of chemical potentials. | |
virtual int | calc_e (quark &u, quark &d, quark &s, thermo &th) |
Calculate equation of state as a function of density. | |
virtual int | calc_temp_p (quark &u, quark &d, quark &s, double temper, thermo &th) |
Calculate equation of state as a function of the chemical potentials. | |
virtual int | calc_temp_e (quark &u, quark &d, quark &s, double temper, thermo &th) |
Calculate equation of state as a function of the densities. | |
virtual const char * | type () |
Return string denoting type ("bag_eos") | |
Data Fields | |
double | bag_constant |
The bag constant in ![]() ![]() |
virtual int bag_eos::calc_temp_p | ( | quark & | u, |
quark & | d, | ||
quark & | s, | ||
double | temper, | ||
thermo & | th | ||
) | [virtual] |
This function returns zero (success) unless the call to quark::pair_mu() fails.
Reimplemented from quark_eos.
virtual int bag_eos::calc_temp_e | ( | quark & | u, |
quark & | d, | ||
quark & | s, | ||
double | temper, | ||
thermo & | th | ||
) | [virtual] |
This function returns zero (success) unless the call to quark::pair_density() fails.
Reimplemented from quark_eos.
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