24 #ifndef O2SCL_EOS_HAD_RMF_H 25 #define O2SCL_EOS_HAD_RMF_H 29 #include <o2scl/lib_settings.h> 30 #include <o2scl/constants.h> 31 #include <o2scl/mm_funct.h> 32 #include <o2scl/part.h> 33 #include <o2scl/eos_had_rmf.h> 34 #include <o2scl/fermion.h> 112 double lrho,
double &f1,
double &f2,
double &f3,
thermo <h);
134 #ifndef DOXYGEN_INTERNAL fermion * sigma_p
The proton object.
fermion def_sigma_m
The default Sigma minus hyperon.
fermion def_cascade_m
The default Xi minus hyperon.
Relativistic mean field theory EOS with hyperons.
bool inc_cascade
If true, include cascade hyperons (default true)
fermion * sigma_m
The proton object.
fermion def_cascade_z
The default Xi zero hyperon.
fermion * lambda
The neutron object.
virtual int calc_eq_p(fermion &ne, fermion &pr, fermion &lam, fermion &sigp, fermion &sigz, fermion &sigm, fermion &casz, fermion &casm, double sig, double ome, double lrho, double &f1, double &f2, double &f3, thermo <h)
Equation of state and meson field equations as a function of chemical potentials. ...
Relativistic mean field theory EOS.
virtual int calc_e(fermion &ne, fermion &pr, thermo <h)
Equation of state as a function of density.
fermion * sigma_z
The neutron object.
fermion def_sigma_z
The default Sigma zero hyperon.
fermion def_sigma_p
The default Sigma plus hyperon.
fermion * cascade_m
The proton object.
void calc_xs(double lam_be)
Compute xs assuming a fixed value of the binding energy in nuclear matter in .
virtual int calc_e_solve_fun(size_t nv, const ubvector &ex, ubvector &ey)
The function for calc_e()
fermion * cascade_z
The neutron object.
void calc_xw(double lam_be)
Compute xs assuming a fixed value of the binding energy in nuclear matter in .
fermion def_lambda
The default Lambda hyperon.