LORENE
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Class for differentially rotating stars. More...
#include <et_rot_diff.h>
Public Member Functions | |
Et_rot_diff (Map &mp_i, int nzet_i, bool relat, const Eos &eos_i, double(*frot_i)(double, const Tbl &), double(*primfrot_i)(double, const Tbl &), const Tbl &par_frot_i) | |
Standard constructor. | |
Et_rot_diff (const Et_rot_diff &) | |
Copy constructor. | |
Et_rot_diff (Map &mp_i, const Eos &eos_i, FILE *fich, double(*frot_i)(double, const Tbl &), double(*primfrot_i)(double, const Tbl &)) | |
Constructor from a file (see sauve(FILE*) ). | |
virtual | ~Et_rot_diff () |
Destructor. | |
void | operator= (const Et_rot_diff &) |
Assignment to another Et_rot_diff . | |
const Tenseur & | get_omega_field () const |
Returns the angular velocity field ![]() | |
virtual double | get_omega_c () const |
Returns the central value of the rotation angular velocity ( [f_unit] ) | |
virtual void | sauve (FILE *) const |
Save in a file. | |
virtual void | display_poly (ostream &) const |
Display in polytropic units. | |
virtual double | tsw () const |
Ratio T/W. | |
virtual void | hydro_euler () |
Computes the hydrodynamical quantities relative to the Eulerian observer from those in the fluid frame. | |
void | fait_omega_field (double omeg_min, double omeg_max, double precis, int nitermax) |
Computes ![]() omega_field ). | |
void | fait_prim_field () |
Computes the member prim_field from omga_field . | |
double | funct_omega (double omeg) const |
Evaluates ![]() | |
double | prim_funct_omega (double omeg) const |
Evaluates the primitive of ![]() | |
virtual void | equilibrium (double ent_c, double omega0, double fact_omega, int nzadapt, const Tbl &ent_limit, const Itbl &icontrol, const Tbl &control, double mbar_wanted, double aexp_mass, Tbl &diff, Param *=0x0) |
Computes an equilibrium configuration. | |
const Tenseur & | get_bbb () const |
Returns the metric factor B. | |
const Tenseur & | get_b_car () const |
Returns the square of the metric factor B. | |
const Tenseur & | get_nphi () const |
Returns the metric coefficient ![]() | |
const Tenseur & | get_tnphi () const |
Returns the component ![]() | |
const Tenseur & | get_uuu () const |
Returns the norm of u_euler . | |
const Tenseur & | get_logn () const |
Returns the metric potential ![]() logn_auto . | |
const Tenseur & | get_nuf () const |
Returns the part of the Metric potential ![]() logn generated by the matter terms. | |
const Tenseur & | get_nuq () const |
Returns the Part of the Metric potential ![]() logn generated by the quadratic terms. | |
const Tenseur & | get_dzeta () const |
Returns the Metric potential ![]() beta_auto . | |
const Tenseur & | get_tggg () const |
Returns the Metric potential ![]() | |
const Tenseur & | get_w_shift () const |
Returns the vector ![]() shift , following Shibata's prescription [Prog. | |
const Tenseur & | get_khi_shift () const |
Returns the scalar ![]() shift following Shibata's prescription [Prog. | |
const Tenseur_sym & | get_tkij () const |
Returns the tensor ![]() ![]() | |
const Tenseur & | get_ak_car () const |
Returns the scalar ![]() | |
virtual const Itbl & | l_surf () const |
Description of the stellar surface: returns a 2-D Itbl containing the values of the domain index l on the surface at the collocation points in ![]() | |
virtual double | mass_b () const |
Baryon mass. | |
virtual double | mass_g () const |
Gravitational mass. | |
virtual double | angu_mom () const |
Angular momentum. | |
virtual double | grv2 () const |
Error on the virial identity GRV2. | |
virtual double | grv3 (ostream *ost=0x0) const |
Error on the virial identity GRV3. | |
virtual double | r_circ () const |
Circumferential radius. | |
virtual double | area () const |
Surface area. | |
virtual double | mean_radius () const |
Mean radius. | |
virtual double | aplat () const |
Flatening r_pole/r_eq. | |
virtual double | z_eqf () const |
Forward redshift factor at equator. | |
virtual double | z_eqb () const |
Backward redshift factor at equator. | |
virtual double | z_pole () const |
Redshift factor at North pole. | |
virtual double | mom_quad () const |
Quadrupole moment. | |
virtual double | mom_quad_old () const |
Part of the quadrupole moment. | |
virtual double | mom_quad_Bo () const |
Part of the quadrupole moment. | |
virtual double | r_isco (ostream *ost=0x0) const |
Circumferential radius of the innermost stable circular orbit (ISCO). | |
virtual double | f_isco () const |
Orbital frequency at the innermost stable circular orbit (ISCO). | |
virtual double | espec_isco () const |
Energy of a particle on the ISCO. | |
virtual double | lspec_isco () const |
Angular momentum of a particle on the ISCO. | |
virtual double | f_eccentric (double ecc, double periast, ostream *ost=0x0) const |
Computation of frequency of eccentric orbits. | |
virtual double | f_eq () const |
Orbital frequency at the equator. | |
void | update_metric () |
Computes metric coefficients from known potentials. | |
void | fait_shift () |
Computes shift from w_shift and khi_shift according to Shibata's prescription [Prog. | |
void | fait_nphi () |
Computes tnphi and nphi from the Cartesian components of the shift, stored in shift . | |
void | extrinsic_curvature () |
Computes tkij and ak_car from shift , nnn and b_car . | |
Map & | set_mp () |
Read/write of the mapping. | |
void | set_enthalpy (const Cmp &) |
Assignment of the enthalpy field. | |
virtual void | equation_of_state () |
Computes the proper baryon and energy density, as well as pressure from the enthalpy. | |
virtual void | equilibrium_spher (double ent_c, double precis=1.e-14, const Tbl *ent_limit=0x0) |
Computes a spherical static configuration. | |
void | equil_spher_regular (double ent_c, double precis=1.e-14) |
Computes a spherical static configuration. | |
virtual void | equil_spher_falloff (double ent_c, double precis=1.e-14) |
Computes a spherical static configuration with the outer boundary condition at a finite radius. | |
const Map & | get_mp () const |
Returns the mapping. | |
int | get_nzet () const |
Returns the number of domains occupied by the star. | |
bool | is_relativistic () const |
Returns true for a relativistic star, false for a Newtonian one. | |
const Eos & | get_eos () const |
Returns the equation of state. | |
const Tenseur & | get_ent () const |
Returns the enthalpy field. | |
const Tenseur & | get_nbar () const |
Returns the proper baryon density. | |
const Tenseur & | get_ener () const |
Returns the proper total energy density. | |
const Tenseur & | get_press () const |
Returns the fluid pressure. | |
const Tenseur & | get_ener_euler () const |
Returns the total energy density with respect to the Eulerian observer. | |
const Tenseur & | get_s_euler () const |
Returns the trace of the stress tensor in the Eulerian frame. | |
const Tenseur & | get_gam_euler () const |
Returns the Lorentz factor between the fluid and Eulerian observers. | |
const Tenseur & | get_u_euler () const |
Returns the fluid 3-velocity with respect to the Eulerian observer. | |
const Tenseur & | get_logn_auto () const |
Returns the logarithm of the part of the lapse N generated principaly by the star. | |
const Tenseur & | get_logn_auto_regu () const |
Returns the regular part of the logarithm of the part of the lapse N generated principaly by the star. | |
const Tenseur & | get_logn_auto_div () const |
Returns the divergent part of the logarithm of the part of the lapse N generated principaly by the star. | |
const Tenseur & | get_d_logn_auto_div () const |
Returns the gradient of logn_auto_div . | |
const Tenseur & | get_beta_auto () const |
Returns the logarithm of the part of the product AN generated principaly by the star. | |
const Tenseur & | get_nnn () const |
Returns the total lapse function N. | |
const Tenseur & | get_shift () const |
Returns the total shift vector ![]() | |
const Tenseur & | get_a_car () const |
Returns the total conformal factor ![]() | |
double | ray_eq () const |
Coordinate radius at ![]() ![]() | |
double | ray_eq (int kk) const |
Coordinate radius at ![]() ![]() | |
double | ray_eq_pis2 () const |
Coordinate radius at ![]() ![]() | |
double | ray_eq_pi () const |
Coordinate radius at ![]() ![]() | |
double | ray_eq_3pis2 () const |
Coordinate radius at ![]() ![]() | |
double | ray_pole () const |
Coordinate radius at ![]() | |
const Tbl & | xi_surf () const |
Description of the stellar surface: returns a 2-D Tbl containing the values of the radial coordinate ![]() ![]() | |
Static Public Member Functions | |
static double | lambda_grv2 (const Cmp &sou_m, const Cmp &sou_q) |
Computes the coefficient ![]() | |
Protected Member Functions | |
virtual ostream & | operator>> (ostream &) const |
Operator >> (virtual function called by the operator <<). | |
virtual void | del_deriv () const |
Deletes all the derived quantities. | |
virtual void | set_der_0x0 () const |
Sets to 0x0 all the pointers on derived quantities. | |
virtual void | del_hydro_euler () |
Sets to ETATNONDEF (undefined state) the hydrodynamical quantities relative to the Eulerian observer. | |
virtual void | partial_display (ostream &) const |
Printing of some informations, excluding all global quantities. | |
Protected Attributes | |
double(* | frot )(double, const Tbl &) |
Function ![]() | |
double(* | primfrot )(double, const Tbl &) |
Primitive of the function ![]() | |
Tbl | par_frot |
Parameters of the function ![]() | |
Tenseur | omega_field |
Field ![]() | |
double | omega_min |
Minimum value of ![]() | |
double | omega_max |
Maximum value of ![]() | |
Tenseur | prim_field |
Field ![]() | |
double | omega |
Rotation angular velocity ( [f_unit] ) | |
Tenseur | bbb |
Metric factor B. | |
Tenseur | b_car |
Square of the metric factor B. | |
Tenseur | nphi |
Metric coefficient ![]() | |
Tenseur | tnphi |
Component ![]() | |
Tenseur | uuu |
Norm of u_euler . | |
Tenseur & | logn |
Metric potential ![]() logn_auto . | |
Tenseur | nuf |
Part of the Metric potential ![]() logn generated by the matter terms. | |
Tenseur | nuq |
Part of the Metric potential ![]() logn generated by the quadratic terms. | |
Tenseur & | dzeta |
Metric potential ![]() beta_auto . | |
Tenseur | tggg |
Metric potential ![]() | |
Tenseur | w_shift |
Vector ![]() shift , following Shibata's prescription [Prog. | |
Tenseur | khi_shift |
Scalar ![]() shift , following Shibata's prescription [Prog. | |
Tenseur_sym | tkij |
Tensor ![]() ![]() | |
Tenseur | ak_car |
Scalar ![]() | |
Cmp | ssjm1_nuf |
Effective source at the previous step for the resolution of the Poisson equation for nuf by means of Map_et::poisson . | |
Cmp | ssjm1_nuq |
Effective source at the previous step for the resolution of the Poisson equation for nuq by means of Map_et::poisson . | |
Cmp | ssjm1_dzeta |
Effective source at the previous step for the resolution of the Poisson equation for dzeta . | |
Cmp | ssjm1_tggg |
Effective source at the previous step for the resolution of the Poisson equation for tggg . | |
Cmp | ssjm1_khi |
Effective source at the previous step for the resolution of the Poisson equation for the scalar ![]() Map_et::poisson . | |
Tenseur | ssjm1_wshift |
Effective source at the previous step for the resolution of the vector Poisson equation for ![]() | |
double * | p_angu_mom |
Angular momentum. | |
double * | p_tsw |
Ratio T/W. | |
double * | p_grv2 |
Error on the virial identity GRV2. | |
double * | p_grv3 |
Error on the virial identity GRV3. | |
double * | p_r_circ |
Circumferential radius. | |
double * | p_area |
Surface area. | |
double * | p_aplat |
Flatening r_pole/r_eq. | |
double * | p_z_eqf |
Forward redshift factor at equator. | |
double * | p_z_eqb |
Backward redshift factor at equator. | |
double * | p_z_pole |
Redshift factor at North pole. | |
double * | p_mom_quad |
Quadrupole moment. | |
double * | p_mom_quad_old |
Part of the quadrupole moment. | |
double * | p_mom_quad_Bo |
Part of the quadrupole moment. | |
double * | p_r_isco |
Circumferential radius of the ISCO. | |
double * | p_f_isco |
Orbital frequency of the ISCO. | |
double * | p_espec_isco |
Specific energy of a particle on the ISCO. | |
double * | p_lspec_isco |
Specific angular momentum of a particle on the ISCO. | |
double * | p_f_eq |
Orbital frequency at the equator. | |
Map & | mp |
Mapping associated with the star. | |
int | nzet |
Number of domains of *mp occupied by the star. | |
bool | relativistic |
Indicator of relativity: true for a relativistic star, false for a Newtonian one. | |
double | unsurc2 |
![]() unsurc2=1 for a relativistic star, 0 for a Newtonian one. | |
int | k_div |
Index of regularity of the gravitational potential logn_auto . | |
const Eos & | eos |
Equation of state of the stellar matter. | |
Tenseur | ent |
Log-enthalpy (relativistic case) or specific enthalpy (Newtonian case) | |
Tenseur | nbar |
Baryon density in the fluid frame. | |
Tenseur | ener |
Total energy density in the fluid frame. | |
Tenseur | press |
Fluid pressure. | |
Tenseur | ener_euler |
Total energy density in the Eulerian frame. | |
Tenseur | s_euler |
Trace of the stress tensor in the Eulerian frame. | |
Tenseur | gam_euler |
Lorentz factor between the fluid and Eulerian observers. | |
Tenseur | u_euler |
Fluid 3-velocity with respect to the Eulerian observer. | |
Tenseur | logn_auto |
Total of the logarithm of the part of the lapse N generated principaly by the star. | |
Tenseur | logn_auto_regu |
Regular part of the logarithm of the part of the lapse N generated principaly by the star. | |
Tenseur | logn_auto_div |
Divergent part (if k_div!=0 ) of the logarithm of the part of the lapse N generated principaly by the star. | |
Tenseur | d_logn_auto_div |
Gradient of logn_auto_div (if k_div!=0 ) | |
Tenseur | beta_auto |
Logarithm of the part of the product AN generated principaly by by the star. | |
Tenseur | nnn |
Total lapse function. | |
Tenseur | shift |
Total shift vector. | |
Tenseur | a_car |
Total conformal factor ![]() | |
double * | p_ray_eq |
Coordinate radius at ![]() ![]() | |
double * | p_ray_eq_pis2 |
Coordinate radius at ![]() ![]() | |
double * | p_ray_eq_pi |
Coordinate radius at ![]() ![]() | |
double * | p_ray_eq_3pis2 |
Coordinate radius at ![]() ![]() | |
double * | p_ray_pole |
Coordinate radius at ![]() | |
Itbl * | p_l_surf |
Description of the stellar surface: 2-D Itbl containing the values of the domain index l on the surface at the collocation points in ![]() | |
Tbl * | p_xi_surf |
Description of the stellar surface: 2-D Tbl containing the values of the radial coordinate ![]() ![]() | |
double * | p_mass_b |
Baryon mass. | |
double * | p_mass_g |
Gravitational mass. | |
Lorene::Et_rot_diff::Et_rot_diff | ( | Map & | mp_i, |
int | nzet_i, | ||
bool | relat, | ||
const Eos & | eos_i, | ||
double(*)(double, const Tbl &) | frot_i, | ||
double(*)(double, const Tbl &) | primfrot_i, | ||
const Tbl & | par_frot_i | ||
) |
Standard constructor.
mp_i | Mapping on which the star will be defined |
nzet_i | Number of domains occupied by the star |
relat | should be true for a relativistic star, false for a Newtonian one |
eos_i | Equation of state of the stellar matter |
frot_i | Function ![]() |
primfrot_i | Primitive of ![]() |
par_frot_i | Parameters of functions frot_i and primfrot_i , par_frot_i(0) being the central value of ![]() |
Definition at line 82 of file et_rot_diff.C.
References Lorene::Etoile_rot::omega, omega_field, omega_max, omega_min, and prim_field.
Lorene::Et_rot_diff::Et_rot_diff | ( | const Et_rot_diff & | et | ) |
Copy constructor.
Definition at line 107 of file et_rot_diff.C.
Lorene::Et_rot_diff::Et_rot_diff | ( | Map & | mp_i, |
const Eos & | eos_i, | ||
FILE * | fich, | ||
double(*)(double, const Tbl &) | frot_i, | ||
double(*)(double, const Tbl &) | primfrot_i | ||
) |
Constructor from a file (see sauve(FILE*)
).
mp_i | Mapping on which the star will be defined |
eos_i | Equation of state of the stellar matter |
fich | input file (must have been created by the function sauve ) |
frot_i | Function ![]() |
primfrot_i | Primitive of ![]() |
Definition at line 121 of file et_rot_diff.C.
References fait_prim_field(), Lorene::fread_be(), Lorene::Etoile::mp, omega_field, omega_max, and omega_min.
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virtual |
Destructor.
Definition at line 147 of file et_rot_diff.C.
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virtualinherited |
Angular momentum.
Reimplemented in Lorene::Et_rot_bifluid, Lorene::Et_rot_mag, and Lorene::Et_magnetisation.
Definition at line 188 of file et_rot_global.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::b_car, Lorene::Etoile::ener_euler, Lorene::Cmp::integrale(), Lorene::Cmp::mult_r(), Lorene::Etoile::nbar, Lorene::Etoile_rot::p_angu_mom, Lorene::Etoile::press, Lorene::Etoile::relativistic, Lorene::Cmp::std_base_scal(), Lorene::Etoile_rot::uuu, and Lorene::Cmp::va.
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virtualinherited |
Flatening r_pole/r_eq.
Definition at line 496 of file et_rot_global.C.
References Lorene::Etoile_rot::p_aplat, Lorene::Etoile::ray_eq(), and Lorene::Etoile::ray_pole().
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virtualinherited |
Surface area.
Definition at line 420 of file et_rot_global.C.
References Lorene::Valeur::annule_hard(), Lorene::Valeur::c_cf, Lorene::Valeur::dsdt(), Lorene::Etoile::get_a_car(), Lorene::Mg3d::get_angu(), Lorene::Etoile_rot::get_bbb(), Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nt(), Lorene::Etoile_rot::l_surf(), Lorene::Etoile::mp, Lorene::Valeur::mult_st(), Lorene::Etoile_rot::p_area, Lorene::Valeur::set(), Lorene::sqrt(), Lorene::Valeur::std_base_scal(), Lorene::Cmp::va, Lorene::Valeur::val_point_jk(), Lorene::Map_radial::val_r_jk(), and Lorene::Etoile::xi_surf().
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protectedvirtualinherited |
Deletes all the derived quantities.
Reimplemented from Lorene::Etoile.
Reimplemented in Lorene::Et_rot_bifluid, and Lorene::Et_rot_mag.
Definition at line 335 of file etoile_rot.C.
References Lorene::Etoile::del_deriv(), Lorene::Etoile_rot::p_angu_mom, Lorene::Etoile_rot::p_aplat, Lorene::Etoile_rot::p_area, Lorene::Etoile_rot::p_espec_isco, Lorene::Etoile_rot::p_f_eq, Lorene::Etoile_rot::p_f_isco, Lorene::Etoile_rot::p_grv2, Lorene::Etoile_rot::p_grv3, Lorene::Etoile_rot::p_lspec_isco, Lorene::Etoile_rot::p_mom_quad, Lorene::Etoile_rot::p_mom_quad_Bo, Lorene::Etoile_rot::p_mom_quad_old, Lorene::Etoile_rot::p_r_circ, Lorene::Etoile_rot::p_r_isco, Lorene::Etoile_rot::p_tsw, Lorene::Etoile_rot::p_z_eqb, Lorene::Etoile_rot::p_z_eqf, Lorene::Etoile_rot::p_z_pole, and Lorene::Etoile_rot::set_der_0x0().
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protectedvirtualinherited |
Sets to ETATNONDEF
(undefined state) the hydrodynamical quantities relative to the Eulerian observer.
Reimplemented from Lorene::Etoile.
Reimplemented in Lorene::Et_rot_bifluid, and Lorene::Et_rot_mag.
Definition at line 389 of file etoile_rot.C.
References Lorene::Etoile_rot::del_deriv(), and Lorene::Etoile::del_hydro_euler().
Display in polytropic units.
Reimplemented from Lorene::Etoile_rot.
Definition at line 268 of file et_rot_diff.C.
References Lorene::Etoile_rot::display_poly(), Lorene::Etoile::ener, Lorene::Etoile::eos, Lorene::Eos_poly::get_gam(), Lorene::Eos_poly::get_kap(), Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::max(), Lorene::Etoile::mp, Lorene::Etoile::nbar, Lorene::Etoile::nzet, omega_field, omega_max, omega_min, Lorene::pow(), and Lorene::sqrt().
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virtualinherited |
Computes the proper baryon and energy density, as well as pressure from the enthalpy.
Reimplemented in Lorene::Et_rot_bifluid, and Lorene::Et_magnetisation.
Definition at line 566 of file etoile.C.
References Lorene::Param::add_int(), Lorene::Cmp::allocate_all(), Lorene::Etoile::del_deriv(), Lorene::Etoile::ener, Lorene::Eos::ener_ent(), Lorene::Etoile::ent, Lorene::Etoile::eos, Lorene::Mg3d::get_grille3d(), Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_nzone(), Lorene::Etoile::mp, Lorene::Etoile::nbar, Lorene::Eos::nbar_ent(), Lorene::Etoile::nzet, Lorene::Etoile::press, Lorene::Eos::press_ent(), Lorene::Tenseur::set(), Lorene::Cmp::set(), Lorene::Mtbl::set(), Lorene::Mtbl::set_etat_qcq(), Lorene::Tbl::set_etat_qcq(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_std_base(), Lorene::Cmp::std_base_scal(), Lorene::Mtbl::t, and Lorene::Grille3d::x.
Computes a spherical static configuration with the outer boundary condition at a finite radius.
ent_c | [input] central value of the enthalpy |
precis | [input] threshold in the relative difference between the enthalpy fields of two consecutive steps to stop the iterative procedure (default value: 1.e-14) |
Definition at line 57 of file etoile_eqsph_falloff.C.
References Lorene::Etoile::a_car, Lorene::Tenseur::annule(), Lorene::Etoile::beta_auto, Lorene::diffrel(), Lorene::Cmp::dsdr(), Lorene::Map_af::dsdr(), Lorene::Etoile::ener, Lorene::Etoile::ener_euler, Lorene::Etoile::ent, Lorene::Etoile::equation_of_state(), Lorene::exp(), Lorene::Etoile::gam_euler, Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_nzone(), Lorene::Map_af::homothetie(), Lorene::Etoile::logn_auto, Lorene::Etoile::mass_b(), Lorene::Etoile::mass_g(), Lorene::Etoile::mp, Lorene::Etoile::nbar, Lorene::Etoile::nnn, Lorene::norme(), Lorene::Etoile::nzet, Lorene::Etoile::press, Lorene::Etoile::relativistic, Lorene::Etoile::s_euler, Lorene::Tenseur::set(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_std_base(), Lorene::Etoile::shift, Lorene::sqrt(), Lorene::Etoile::u_euler, Lorene::Etoile::unsurc2, and Lorene::Map::val_r().
Computes a spherical static configuration.
The sources for Poisson equations are regularized by extracting analytical diverging parts.
ent_c | [input] central value of the enthalpy |
precis | [input] threshold in the relative difference between the enthalpy fields of two consecutive steps to stop the iterative procedure (default value: 1.e-14) |
Definition at line 115 of file et_equil_spher_regu.C.
References Lorene::Etoile::a_car, Lorene::Tenseur::annule(), Lorene::Etoile::beta_auto, Lorene::Etoile::d_logn_auto_div, Lorene::Eos::der_ener_ent_p(), Lorene::Eos::der_nbar_ent_p(), Lorene::diffrel(), Lorene::Map_af::dsdr(), Lorene::Etoile::ener, Lorene::Etoile::ener_euler, Lorene::Etoile::ent, Lorene::Etoile::eos, Lorene::Etoile::equation_of_state(), Lorene::exp(), Lorene::Etoile::gam_euler, Lorene::Map::get_bvect_spher(), Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_nzone(), Lorene::Tenseur::gradient_spher(), Lorene::Map_af::homothetie(), Lorene::Etoile::k_div, Lorene::Etoile::logn_auto, Lorene::Etoile::logn_auto_div, Lorene::Etoile::logn_auto_regu, Lorene::Etoile::mass_b(), Lorene::Etoile::mass_g(), Lorene::Etoile::mp, Lorene::Etoile::nbar, Lorene::Etoile::nnn, Lorene::norme(), Lorene::Etoile::nzet, Lorene::Map_af::poisson(), Lorene::Map_af::poisson_regular(), Lorene::Etoile::press, Lorene::Etoile::relativistic, Lorene::Etoile::s_euler, Lorene::Tenseur::set(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_std_base(), Lorene::Tenseur::set_triad(), Lorene::Etoile::shift, Lorene::sqrt(), Lorene::Cmp::std_base_scal(), Lorene::Etoile::u_euler, Lorene::Etoile::unsurc2, and Lorene::Map::val_r().
|
virtual |
Computes an equilibrium configuration.
ent_c | [input] Central enthalpy |
omega0 | [input] Requested central angular velocity (if fact_omega=1 . ) |
fact_omega | [input] 1.01 = search for the Keplerian frequency,
|
nzadapt | [input] Number of (inner) domains where the mapping adaptation to an iso-enthalpy surface should be performed |
ent_limit | [input] 1-D Tbl of dimension nzet which defines the enthalpy at the outer boundary of each domain |
icontrol | [input] Set of integer parameters (stored as a 1-D Itbl of size 8) to control the iteration:
|
control | [input] Set of parameters (stored as a 1-D Tbl of size 7) to control the iteration:
|
mbar_wanted | [input] Requested baryon mass (effective only if mer_mass > mer_max ) |
aexp_mass | [input] Exponent for the increase factor of the central enthalpy to converge to the requested baryon mass |
diff | [output] 1-D Tbl of size 7 for the storage of some error indicators :
|
Reimplemented from Lorene::Etoile_rot.
Definition at line 88 of file et_rot_diff_equil.C.
References Lorene::Etoile::a_car, Lorene::abs(), Lorene::Map::adapt(), Lorene::Param::add_cmp_mod(), Lorene::Param::add_double(), Lorene::Param::add_double_mod(), Lorene::Param::add_int(), Lorene::Param::add_int_mod(), Lorene::Param::add_tbl(), Lorene::Param::add_tenseur_mod(), Lorene::Etoile_rot::ak_car, Lorene::Cmp::annule(), Lorene::Etoile_rot::bbb, Lorene::Valeur::c_cf, Lorene::Tenseur::change_triad(), Lorene::Map::cmp_zero(), Lorene::Valeur::coef(), Lorene::cos(), Lorene::diffrel(), Lorene::Etoile_rot::dzeta, Lorene::Etoile::ener_euler, Lorene::Etoile::ent, Lorene::Etoile::equation_of_state(), Lorene::Etoile_rot::fait_nphi(), fait_omega_field(), Lorene::flat_scalar_prod(), Lorene::Etoile::gam_euler, Lorene::Map::get_bvect_cart(), Lorene::Tenseur::get_etat(), Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_nzone(), Lorene::Mg3d::get_type_t(), Lorene::Tenseur::gradient_spher(), Lorene::Etoile_rot::grv2(), Lorene::Map_et::homothetie(), hydro_euler(), Lorene::Etoile_rot::khi_shift, Lorene::log(), Lorene::log10(), Lorene::Etoile_rot::logn, Lorene::Etoile_rot::mass_b(), Lorene::Etoile_rot::mass_g(), Lorene::Etoile::mp, Lorene::Cmp::mult_rsint(), Lorene::Etoile::nbar, Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, Lorene::Etoile_rot::nuf, Lorene::Etoile_rot::nuq, Lorene::Etoile::nzet, Lorene::Etoile_rot::omega, omega_field, par_frot, Lorene::Etoile_rot::partial_display(), Lorene::Map::phi, Lorene::Map::poisson2d(), Lorene::Tenseur::poisson_vect(), Lorene::pow(), Lorene::Etoile::press, prim_field, Lorene::Etoile::ray_eq(), Lorene::Etoile::ray_pole(), Lorene::Map::reevaluate(), Lorene::Etoile::relativistic, Lorene::Etoile::s_euler, Lorene::Tenseur::set(), Lorene::Tbl::set(), Lorene::Tbl::set_etat_qcq(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_std_base(), Lorene::Etoile::shift, Lorene::Map::sint, Lorene::sqrt(), Lorene::Etoile_rot::ssjm1_khi, Lorene::Etoile_rot::ssjm1_nuf, Lorene::Etoile_rot::ssjm1_nuq, Lorene::Etoile_rot::ssjm1_tggg, Lorene::Etoile_rot::ssjm1_wshift, Lorene::Cmp::std_base_scal(), Lorene::Etoile_rot::tggg, Lorene::Etoile_rot::tkij, Lorene::Etoile::u_euler, Lorene::Etoile_rot::update_metric(), Lorene::Etoile_rot::uuu, Lorene::Cmp::va, and Lorene::Etoile_rot::w_shift.
|
virtualinherited |
Computes a spherical static configuration.
ent_c | [input] central value of the enthalpy |
precis | [input] threshold in the relative difference between the enthalpy fields of two consecutive steps to stop the iterative procedure (default value: 1.e-14) |
ent_limit | [input] : array of enthalpy values to be set at the boundaries between the domains; if set to 0x0 (default), the initial values will be kept. |
Definition at line 87 of file etoile_equil_spher.C.
References Lorene::Etoile::a_car, Lorene::Map_et::adapt(), Lorene::Param::add_double(), Lorene::Param::add_int(), Lorene::Param::add_int_mod(), Lorene::Param::add_tbl(), Lorene::Tenseur::annule(), Lorene::Etoile::beta_auto, Lorene::diffrel(), Lorene::Cmp::dsdr(), Lorene::Map_af::dsdr(), Lorene::Etoile::ener, Lorene::Etoile::ener_euler, Lorene::Etoile::ent, Lorene::Etoile::equation_of_state(), Lorene::exp(), Lorene::Etoile::gam_euler, Lorene::Map_af::get_alpha(), Lorene::Map_et::get_alpha(), Lorene::Map_af::get_beta(), Lorene::Map_et::get_beta(), Lorene::Etoile::get_ent(), Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_nzone(), Lorene::Etoile::get_press(), Lorene::Map_af::homothetie(), Lorene::Etoile::logn_auto, Lorene::Etoile::mass_b(), Lorene::Etoile::mass_g(), Lorene::Etoile::mp, Lorene::Etoile::nbar, Lorene::Etoile::nnn, Lorene::norme(), Lorene::Etoile::nzet, Lorene::Map_af::poisson(), Lorene::Etoile::press, Lorene::Etoile::relativistic, Lorene::Etoile::s_euler, Lorene::Tenseur::set(), Lorene::Map_af::set_alpha(), Lorene::Map_af::set_beta(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_std_base(), Lorene::Etoile::shift, Lorene::sqrt(), Lorene::Etoile::u_euler, Lorene::Etoile::unsurc2, and Lorene::Map::val_r().
|
virtualinherited |
Energy of a particle on the ISCO.
Definition at line 301 of file et_rot_isco.C.
References Lorene::Etoile_rot::p_espec_isco, and Lorene::Etoile_rot::r_isco().
|
inherited |
Computes tkij
and ak_car
from shift
, nnn
and b_car
.
Definition at line 57 of file et_rot_extr_curv.C.
References Lorene::Etoile_rot::ak_car, Lorene::Etoile_rot::b_car, Lorene::contract(), Lorene::Cmp::get_etat(), Lorene::Tenseur::get_etat(), Lorene::Map::get_mg(), Lorene::Tenseur::gradient(), Lorene::Etoile::mp, Lorene::Cmp::mult_rsint(), Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, Lorene::Tenseur::set(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_etat_zero(), Lorene::Etoile::shift, Lorene::Etoile_rot::tkij, and Lorene::Cmp::va.
|
virtualinherited |
Computation of frequency of eccentric orbits.
ecc | eccentricity of the orbit |
periasrt | periastron of the orbit |
ost | output stream to give details of the computation; if set to 0x0 [default value], no details will be given. |
Definition at line 78 of file et_rot_f_eccentric.C.
References Lorene::Param::add_cmp(), Lorene::Param::add_int(), Lorene::Cmp::annule(), Lorene::Etoile_rot::bbb, Lorene::Cmp::dsdr(), Lorene::Map::get_mg(), Lorene::Mg3d::get_nzone(), Lorene::Etoile::mp, Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, Lorene::Etoile::nzet, Lorene::Etoile_rot::p_f_isco, Lorene::Etoile_rot::p_r_isco, Lorene::Map::r, Lorene::Etoile::ray_eq(), Lorene::sqrt(), Lorene::Cmp::std_base_scal(), Lorene::Cmp::va, Lorene::Valeur::val_point(), and Lorene::Map::val_r().
|
virtualinherited |
Orbital frequency at the equator.
Definition at line 319 of file et_rot_isco.C.
References Lorene::Etoile_rot::p_f_eq, and Lorene::Etoile_rot::r_isco().
|
virtualinherited |
Orbital frequency at the innermost stable circular orbit (ISCO).
Definition at line 267 of file et_rot_isco.C.
References Lorene::Etoile_rot::p_f_isco, and Lorene::Etoile_rot::r_isco().
|
inherited |
Computes tnphi
and nphi
from the Cartesian components of the shift, stored in shift
.
Definition at line 781 of file etoile_rot.C.
References Lorene::Map::comp_p_from_cartesian(), Lorene::Tenseur::get_etat(), Lorene::Etoile::mp, Lorene::Etoile_rot::nphi, Lorene::Tenseur::set(), Lorene::Tenseur::set_etat_qcq(), Lorene::Etoile::shift, and Lorene::Etoile_rot::tnphi.
void Lorene::Et_rot_diff::fait_omega_field | ( | double | omeg_min, |
double | omeg_max, | ||
double | precis, | ||
int | nitermax | ||
) |
Computes omega_field
).
The computation amounts to solving the equation
for
omeg_min | [input] Lower bound of the interval for searching omega |
omeg_max | [input] Higher bound of the interval for searching omega |
precis | [input] Required precision in the determination of the zero by the secant method |
nitermax | [input] Maximum number of iterations in the secant method to compute the zero. |
Definition at line 73 of file et_rot_diff_faitomeg.C.
References Lorene::Param::add_cmp(), Lorene::Param::add_etoile(), Lorene::Param::add_int(), Lorene::Tenseur::allocate_all(), Lorene::Cmp::annule(), Lorene::Etoile_rot::bbb, fait_prim_field(), Lorene::Tenseur::get_etat(), Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_nzone(), Lorene::max(), Lorene::min(), Lorene::Etoile::mp, Lorene::Cmp::mult_rsint(), Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, Lorene::Etoile::nzet, omega_field, omega_max, omega_min, Lorene::Tenseur::set(), Lorene::Tbl::set(), Lorene::Cmp::set(), Lorene::Tenseur::set_std_base(), Lorene::Cmp::std_base_scal(), and Lorene::zerosec().
void Lorene::Et_rot_diff::fait_prim_field | ( | ) |
Computes the member prim_field
from omga_field
.
Definition at line 199 of file et_rot_diff_faitomeg.C.
References Lorene::Tenseur::allocate_all(), Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_nzone(), Lorene::Etoile::mp, Lorene::Etoile::nzet, omega_field, par_frot, prim_field, primfrot, Lorene::Tenseur::set(), Lorene::Tbl::set(), Lorene::Cmp::set(), and Lorene::Tenseur::set_std_base().
|
inherited |
Computes shift
from w_shift
and khi_shift
according to Shibata's prescription [Prog.
Theor. Phys. 101 , 1199 (1999)] :
Definition at line 748 of file etoile_rot.C.
References Lorene::Tenseur::dec2_dzpuis(), Lorene::Tenseur::dec_dzpuis(), Lorene::Tenseur::get_etat(), Lorene::Tenseur::get_triad(), Lorene::Tenseur::gradient(), Lorene::Etoile_rot::khi_shift, Lorene::Tenseur::set(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_triad(), Lorene::Etoile::shift, Lorene::skxk(), and Lorene::Etoile_rot::w_shift.
Evaluates
This function is linked to the components of the fluid 4-velocity by
funct_omega
calls frot
with the parameters par_frot
.
omeg | [input] value of ![]() |
Definition at line 315 of file et_rot_diff.C.
Returns the total conformal factor
Definition at line 733 of file etoile.h.
References Lorene::Etoile::a_car.
Returns the scalar
For axisymmetric stars, this quantity is related to the derivatives of
In particular it is related to the quantities
Definition at line 1799 of file etoile.h.
References Lorene::Etoile_rot::ak_car.
Returns the square of the metric factor B.
Definition at line 1715 of file etoile.h.
References Lorene::Etoile_rot::b_car.
Returns the metric factor B.
Definition at line 1712 of file etoile.h.
References Lorene::Etoile_rot::bbb.
Returns the logarithm of the part of the product AN generated principaly by the star.
Definition at line 724 of file etoile.h.
References Lorene::Etoile::beta_auto.
Returns the gradient of logn_auto_div
.
Definition at line 719 of file etoile.h.
References Lorene::Etoile::d_logn_auto_div.
Returns the Metric potential beta_auto
.
Definition at line 1742 of file etoile.h.
References Lorene::Etoile_rot::dzeta.
Returns the proper total energy density.
Definition at line 679 of file etoile.h.
References Lorene::Etoile::ener.
Returns the total energy density with respect to the Eulerian observer.
Definition at line 685 of file etoile.h.
References Lorene::Etoile::ener_euler.
Returns the enthalpy field.
Definition at line 673 of file etoile.h.
References Lorene::Etoile::ent.
Returns the equation of state.
Definition at line 670 of file etoile.h.
References Lorene::Etoile::eos.
Returns the Lorentz factor between the fluid and Eulerian observers.
Definition at line 691 of file etoile.h.
References Lorene::Etoile::gam_euler.
Returns the scalar shift
following Shibata's prescription [Prog.
Theor. Phys. 101 , 1199 (1999)] :
NB: w_shift
contains the components of mp
.
Definition at line 1773 of file etoile.h.
References Lorene::Etoile_rot::khi_shift.
Returns the metric potential logn_auto
.
Definition at line 1729 of file etoile.h.
References Lorene::Etoile_rot::logn.
Returns the logarithm of the part of the lapse N generated principaly by the star.
In the Newtonian case, this is the Newtonian gravitational potential (in units of
Definition at line 701 of file etoile.h.
References Lorene::Etoile::logn_auto.
Returns the divergent part of the logarithm of the part of the lapse N generated principaly by the star.
In the Newtonian case, this is the diverging part of the Newtonian gravitational potential (in units of
Definition at line 715 of file etoile.h.
References Lorene::Etoile::logn_auto_div.
Returns the regular part of the logarithm of the part of the lapse N generated principaly by the star.
In the Newtonian case, this is the Newtonian gravitational potential (in units of
Definition at line 708 of file etoile.h.
References Lorene::Etoile::logn_auto_regu.
Returns the proper baryon density.
Definition at line 676 of file etoile.h.
References Lorene::Etoile::nbar.
Returns the total lapse function N.
Definition at line 727 of file etoile.h.
References Lorene::Etoile::nnn.
Returns the metric coefficient
Definition at line 1718 of file etoile.h.
References Lorene::Etoile_rot::nphi.
Returns the part of the Metric potential logn
generated by the matter terms.
Definition at line 1734 of file etoile.h.
References Lorene::Etoile_rot::nuf.
Returns the Part of the Metric potential logn
generated by the quadratic terms.
Definition at line 1739 of file etoile.h.
References Lorene::Etoile_rot::nuq.
|
inlineinherited |
Returns the number of domains occupied by the star.
Definition at line 662 of file etoile.h.
References Lorene::Etoile::nzet.
|
virtual |
Returns the central value of the rotation angular velocity ([f_unit] )
Reimplemented from Lorene::Etoile_rot.
Definition at line 327 of file et_rot_diff.C.
References omega_field.
Returns the angular velocity field
Definition at line 170 of file et_rot_diff.h.
References omega_field.
Returns the fluid pressure.
Definition at line 682 of file etoile.h.
References Lorene::Etoile::press.
Returns the trace of the stress tensor in the Eulerian frame.
Definition at line 688 of file etoile.h.
References Lorene::Etoile::s_euler.
Returns the total shift vector
Definition at line 730 of file etoile.h.
References Lorene::Etoile::shift.
Returns the Metric potential
Definition at line 1745 of file etoile.h.
References Lorene::Etoile_rot::tggg.
|
inlineinherited |
Returns the tensor
tkij
contains the Cartesian components of
Definition at line 1780 of file etoile.h.
References Lorene::Etoile_rot::tkij.
Returns the component
Definition at line 1723 of file etoile.h.
References Lorene::Etoile_rot::tnphi.
Returns the fluid 3-velocity with respect to the Eulerian observer.
Definition at line 694 of file etoile.h.
References Lorene::Etoile::u_euler.
Returns the norm of u_euler
.
Definition at line 1726 of file etoile.h.
References Lorene::Etoile_rot::uuu.
Returns the vector shift
, following Shibata's prescription [Prog.
Theor. Phys. 101 , 1199 (1999)] :
NB: w_shift
contains the components of mp
.
Definition at line 1759 of file etoile.h.
References Lorene::Etoile_rot::w_shift.
|
virtualinherited |
Error on the virial identity GRV2.
This indicator is only valid for relativistic computations.
Reimplemented in Lorene::Et_rot_bifluid, Lorene::Et_rot_mag, and Lorene::Et_magnetisation.
Definition at line 254 of file et_rot_global.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::ak_car, Lorene::Etoile::ener_euler, Lorene::flat_scalar_prod(), Lorene::Tenseur::gradient_spher(), Lorene::Etoile_rot::lambda_grv2(), Lorene::Etoile_rot::logn, Lorene::Etoile::mp, Lorene::Etoile::nbar, Lorene::Etoile_rot::p_grv2, Lorene::Etoile::press, Lorene::Etoile::relativistic, and Lorene::Etoile_rot::uuu.
Error on the virial identity GRV3.
The error is computed as the integral defined by Eq. (43) of [Gourgoulhon and Bonazzola, Class. Quantum Grav. 11, 443 (1994)] divided by the integral of the matter terms.
ost | output stream to give details of the computation; if set to 0x0 [default value], no details will be given. |
Reimplemented in Lorene::Et_rot_bifluid, Lorene::Et_rot_mag, and Lorene::Et_magnetisation.
Definition at line 285 of file et_rot_global.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::ak_car, Lorene::Etoile_rot::bbb, Lorene::Cmp::dsdr(), Lorene::Etoile_rot::dzeta, Lorene::flat_scalar_prod(), Lorene::Cmp::get_dzpuis(), Lorene::Cmp::get_etat(), Lorene::Tenseur::gradient_spher(), Lorene::log(), Lorene::Etoile_rot::logn, Lorene::Etoile::mp, Lorene::Valeur::mult_ct(), Lorene::Etoile::nbar, Lorene::Etoile_rot::p_grv3, Lorene::Etoile::press, Lorene::Etoile::relativistic, Lorene::Etoile::s_euler, Lorene::Cmp::set_dzpuis(), Lorene::Tenseur::set_std_base(), Lorene::Cmp::srdsdt(), Lorene::Valeur::ssint(), Lorene::Cmp::std_base_scal(), Lorene::Valeur::sx(), Lorene::Etoile_rot::uuu, Lorene::Cmp::va, and Lorene::Map_radial::xsr.
|
virtual |
Computes the hydrodynamical quantities relative to the Eulerian observer from those in the fluid frame.
The calculation is performed starting from the quantities omega_field
, ent
, ener
, press
, and a_car
,
which are supposed to be up to date.
From these, the following fields are updated: gam_euler
, u_euler
, ener_euler
, s_euler
.
Reimplemented from Lorene::Etoile_rot.
Definition at line 61 of file et_rot_diff_hydro.C.
References Lorene::Etoile::a_car, Lorene::abs(), Lorene::Cmp::annule(), Lorene::Tenseur::annule(), Lorene::Etoile_rot::b_car, Lorene::Mtbl_cf::base, Lorene::Valeur::c_cf, Lorene::Tenseur::change_triad(), Lorene::Valeur::coef(), Lorene::Etoile_rot::del_deriv(), Lorene::Etoile::ener, Lorene::Etoile::ener_euler, Lorene::Etoile::gam_euler, Lorene::Map::get_bvect_cart(), Lorene::Map::get_bvect_spher(), Lorene::Tenseur::get_etat(), Lorene::Valeur::get_etat(), Lorene::Map::get_mg(), Lorene::Mg3d::get_nzone(), Lorene::max(), Lorene::Etoile::mp, Lorene::Cmp::mult_rsint(), Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, omega_field, Lorene::Etoile::press, Lorene::Etoile::s_euler, Lorene::Tenseur::set(), Lorene::Valeur::set_etat_cf_qcq(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_std_base(), Lorene::Tenseur::set_triad(), Lorene::Etoile::shift, Lorene::sqrt(), Lorene::Cmp::std_base_scal(), Lorene::Etoile::u_euler, Lorene::Etoile::unsurc2, Lorene::Etoile_rot::uuu, Lorene::Cmp::va, Lorene::Map::x, and Lorene::Map::y.
|
inlineinherited |
Returns true
for a relativistic star, false
for a Newtonian one.
Definition at line 667 of file etoile.h.
References Lorene::Etoile::relativistic.
Description of the stellar surface: returns a 2-D Itbl
containing the values of the domain index l on the surface at the collocation points in
The stellar surface is defined as the location where the enthalpy (member ent
) vanishes.
Reimplemented from Lorene::Etoile.
Reimplemented in Lorene::Et_rot_bifluid.
Definition at line 95 of file et_rot_global.C.
References Lorene::Etoile::ent, Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nt(), Lorene::Etoile::mp, Lorene::Etoile::nzet, Lorene::Etoile::p_l_surf, and Lorene::Etoile::p_xi_surf.
Computes the coefficient
in order that the total source does not contain any monopolar term, i.e. in order that
where
Then, by construction, the new source
sou_m | [input] matter source term ![]() |
sou_q | [input] quadratic source term ![]() |
Definition at line 79 of file et_rot_lambda_grv2.C.
References Lorene::Valeur::c, Lorene::Cmp::check_dzpuis(), Lorene::Valeur::coef_i(), Lorene::Map_radial::dxdr, Lorene::Map_af::get_alpha(), Lorene::Map_af::get_beta(), Lorene::Cmp::get_etat(), Lorene::Tbl::get_etat(), Lorene::Valeur::get_etat(), Lorene::Mg3d::get_grille3d(), Lorene::Map::get_mg(), Lorene::Cmp::get_mp(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_nzone(), Lorene::Mg3d::get_type_r(), Lorene::Map_af::set_alpha(), Lorene::Map_af::set_beta(), Lorene::Mtbl::t, Lorene::Tbl::t, Lorene::Cmp::va, Lorene::Map::val_r(), Lorene::Grille3d::x, and Lorene::Map_radial::xsr.
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Angular momentum of a particle on the ISCO.
Definition at line 284 of file et_rot_isco.C.
References Lorene::Etoile_rot::p_lspec_isco, and Lorene::Etoile_rot::r_isco().
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Baryon mass.
Reimplemented from Lorene::Etoile.
Reimplemented in Lorene::Et_rot_bifluid.
Definition at line 125 of file et_rot_global.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::bbb, Lorene::Etoile::gam_euler, Lorene::Tenseur::get_etat(), Lorene::Cmp::integrale(), Lorene::Etoile::nbar, Lorene::Etoile::p_mass_b, Lorene::Etoile::relativistic, and Lorene::Cmp::std_base_scal().
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Gravitational mass.
Reimplemented from Lorene::Etoile.
Reimplemented in Lorene::Et_rot_bifluid, Lorene::Et_rot_mag, and Lorene::Et_magnetisation.
Definition at line 157 of file et_rot_global.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::bbb, Lorene::Etoile::ener_euler, Lorene::Etoile_rot::mass_b(), Lorene::Etoile::nnn, Lorene::Etoile::p_mass_g, Lorene::Etoile::press, Lorene::Etoile::relativistic, Lorene::Etoile::s_euler, Lorene::Tenseur::set_std_base(), Lorene::Etoile_rot::tnphi, and Lorene::Etoile_rot::uuu.
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Mean radius.
Definition at line 472 of file et_rot_global.C.
References Lorene::Etoile_rot::area(), and Lorene::sqrt().
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Quadrupole moment.
The quadrupole moment Q is defined according to Eq. (11) of [Pappas and Apostolatos, Physical Review Letters 108, 231104 (2012)]. This is a corrected version of the quadrupole moment defined by [Salgado, Bonazzola, Gourgoulhon and Haensel, Astron. Astrophys. 291 , 155 (1994)]. Following this definition,
Reimplemented in Lorene::Et_rot_bifluid.
Definition at line 600 of file et_rot_global.C.
References Lorene::Etoile_rot::mass_g(), Lorene::Etoile_rot::mom_quad_Bo(), Lorene::Etoile_rot::mom_quad_old(), Lorene::Etoile_rot::p_mom_quad, Lorene::pow(), and Lorene::Etoile::relativistic.
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Part of the quadrupole moment.
Reimplemented in Lorene::Et_rot_bifluid, and Lorene::Et_magnetisation.
Definition at line 618 of file et_rot_global.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::bbb, Lorene::Cmp::integrale(), Lorene::Etoile::mp, Lorene::Cmp::mult_rsint(), Lorene::Etoile::nnn, Lorene::Etoile_rot::p_mom_quad_Bo, Lorene::Etoile::press, and Lorene::Cmp::std_base_scal().
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Part of the quadrupole moment.
This term
Reimplemented in Lorene::Et_rot_bifluid, Lorene::Et_rot_mag, and Lorene::Et_magnetisation.
Definition at line 641 of file et_rot_global.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::ak_car, Lorene::Etoile_rot::bbb, Lorene::Cmp::check_dzpuis(), Lorene::Etoile::ener_euler, Lorene::flat_scalar_prod(), Lorene::Cmp::get_etat(), Lorene::Tenseur::gradient_spher(), Lorene::Cmp::inc2_dzpuis(), Lorene::log(), Lorene::Etoile_rot::logn, Lorene::Etoile::mp, Lorene::Valeur::mult_ct(), Lorene::Cmp::mult_r(), Lorene::Etoile::nbar, Lorene::Etoile_rot::p_mom_quad_old, Lorene::Etoile::relativistic, Lorene::Etoile::s_euler, Lorene::Tenseur::set(), Lorene::Tenseur::set_std_base(), and Lorene::Cmp::va.
void Lorene::Et_rot_diff::operator= | ( | const Et_rot_diff & | et | ) |
Assignment to another Et_rot_diff
.
Definition at line 156 of file et_rot_diff.C.
References frot, omega_field, omega_max, omega_min, Lorene::Etoile_rot::operator=(), par_frot, prim_field, and primfrot.
Operator >> (virtual function called by the operator <<).
Reimplemented from Lorene::Etoile_rot.
Definition at line 196 of file et_rot_diff.C.
References Lorene::Etoile_rot::angu_mom(), Lorene::Etoile_rot::aplat(), display_poly(), Lorene::Etoile::ener, Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), get_omega_c(), Lorene::Etoile_rot::mass_b(), Lorene::Etoile_rot::mass_g(), Lorene::max(), Lorene::Etoile::mp, Lorene::Etoile::nbar, Lorene::Etoile::nzet, omega_field, omega_max, omega_min, Lorene::Etoile_rot::operator>>(), par_frot, Lorene::pow(), Lorene::Etoile::press, Lorene::Etoile::ray_eq(), Lorene::sqrt(), and tsw().
Printing of some informations, excluding all global quantities.
Reimplemented in Lorene::Et_rot_bifluid.
Definition at line 630 of file etoile_rot.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::aplat(), Lorene::Etoile_rot::b_car, Lorene::Etoile_rot::dzeta, Lorene::Etoile::ener, Lorene::Etoile::ent, Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Etoile_rot::get_omega_c(), Lorene::Etoile_rot::logn, Lorene::Etoile::mp, Lorene::Etoile::nbar, Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, Lorene::Etoile::nzet, Lorene::Etoile::press, Lorene::Etoile::ray_eq(), and Lorene::Etoile_rot::uuu.
Evaluates the primitive of
omeg | [input] value of ![]() |
Definition at line 321 of file et_rot_diff.C.
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Circumferential radius.
Definition at line 390 of file et_rot_global.C.
References Lorene::Etoile_rot::bbb, Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::mp, Lorene::Etoile::nzet, Lorene::Etoile_rot::p_r_circ, and Lorene::Etoile::ray_eq().
Circumferential radius of the innermost stable circular orbit (ISCO).
ost | output stream to give details of the computation; if set to 0x0 [default value], no details will be given. |
Definition at line 84 of file et_rot_isco.C.
References Lorene::Param::add_cmp(), Lorene::Param::add_int(), Lorene::Cmp::annule(), Lorene::Etoile_rot::bbb, Lorene::Cmp::dsdr(), Lorene::Map::get_mg(), Lorene::Mg3d::get_nzone(), Lorene::Etoile::mp, Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, Lorene::Etoile::nzet, Lorene::Etoile_rot::p_espec_isco, Lorene::Etoile_rot::p_f_eq, Lorene::Etoile_rot::p_f_isco, Lorene::Etoile_rot::p_lspec_isco, Lorene::Etoile_rot::p_r_isco, Lorene::Map::r, Lorene::Etoile::ray_eq(), Lorene::sqrt(), Lorene::Cmp::std_base_scal(), Lorene::Cmp::va, Lorene::Valeur::val_point(), Lorene::Map::val_r(), and Lorene::zerosec().
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Coordinate radius at
Definition at line 120 of file etoile_global.C.
References Lorene::Map::get_mg(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_type_p(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::l_surf(), Lorene::Etoile::mp, Lorene::Etoile::p_ray_eq, Lorene::Map::val_r(), and Lorene::Etoile::xi_surf().
Coordinate radius at
Definition at line 440 of file etoile_global.C.
References Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_type_p(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::l_surf(), Lorene::Etoile::mp, Lorene::Map::val_r(), and Lorene::Etoile::xi_surf().
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Coordinate radius at
Definition at line 335 of file etoile_global.C.
References Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_type_p(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::l_surf(), Lorene::Etoile::mp, Lorene::Etoile::p_ray_eq_3pis2, Lorene::Etoile::ray_eq_pis2(), Lorene::Map::val_r(), and Lorene::Etoile::xi_surf().
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Coordinate radius at
Definition at line 256 of file etoile_global.C.
References Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_type_p(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::l_surf(), Lorene::Etoile::mp, Lorene::Etoile::p_ray_eq_pi, Lorene::Etoile::ray_eq(), Lorene::Map::val_r(), and Lorene::Etoile::xi_surf().
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Coordinate radius at
Definition at line 169 of file etoile_global.C.
References Lorene::Map::get_mg(), Lorene::Mg3d::get_np(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_type_p(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::l_surf(), Lorene::Etoile::mp, Lorene::Etoile::p_ray_eq_pis2, Lorene::Map::val_r(), and Lorene::Etoile::xi_surf().
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Coordinate radius at
Definition at line 415 of file etoile_global.C.
References Lorene::Map::get_mg(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::l_surf(), Lorene::Etoile::mp, Lorene::Etoile::p_ray_pole, Lorene::Map::val_r(), and Lorene::Etoile::xi_surf().
Save in a file.
Reimplemented from Lorene::Etoile_rot.
Definition at line 179 of file et_rot_diff.C.
References Lorene::fwrite_be(), omega_field, omega_max, omega_min, par_frot, Lorene::Etoile_rot::sauve(), Lorene::Tbl::sauve(), and Lorene::Tenseur::sauve().
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Sets to 0x0
all the pointers on derived quantities.
Reimplemented from Lorene::Etoile.
Reimplemented in Lorene::Et_rot_bifluid, and Lorene::Et_rot_mag.
Definition at line 364 of file etoile_rot.C.
References Lorene::Etoile_rot::p_angu_mom, Lorene::Etoile_rot::p_aplat, Lorene::Etoile_rot::p_area, Lorene::Etoile_rot::p_espec_isco, Lorene::Etoile_rot::p_f_eq, Lorene::Etoile_rot::p_f_isco, Lorene::Etoile_rot::p_grv2, Lorene::Etoile_rot::p_grv3, Lorene::Etoile_rot::p_lspec_isco, Lorene::Etoile_rot::p_mom_quad, Lorene::Etoile_rot::p_mom_quad_Bo, Lorene::Etoile_rot::p_mom_quad_old, Lorene::Etoile_rot::p_r_circ, Lorene::Etoile_rot::p_r_isco, Lorene::Etoile_rot::p_tsw, Lorene::Etoile_rot::p_z_eqb, Lorene::Etoile_rot::p_z_eqf, Lorene::Etoile_rot::p_z_pole, and Lorene::Etoile::set_der_0x0().
Assignment of the enthalpy field.
Definition at line 465 of file etoile.C.
References Lorene::Etoile::del_deriv(), Lorene::Etoile::ent, and Lorene::Etoile::equation_of_state().
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Ratio T/W.
Reimplemented from Lorene::Etoile_rot.
Definition at line 67 of file et_rot_diff_global.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::b_car, Lorene::Etoile_rot::bbb, Lorene::Etoile::ener, Lorene::Etoile::ener_euler, Lorene::Etoile::gam_euler, Lorene::Cmp::integrale(), Lorene::Etoile_rot::logn, Lorene::Etoile_rot::mass_g(), Lorene::Cmp::mult_r(), Lorene::Etoile::nbar, omega_field, Lorene::Etoile_rot::p_tsw, Lorene::Etoile::press, Lorene::Etoile::relativistic, Lorene::Cmp::std_base_scal(), Lorene::Etoile_rot::uuu, and Lorene::Cmp::va.
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Computes metric coefficients from known potentials.
The calculation is performed starting from the quantities logn
, dzeta
, tggg
and shift
, which are supposed to be up to date.
From these, the following fields are updated: nnn
, a_car
, bbb
and b_car
.
Definition at line 69 of file et_rot_upmetr.C.
References Lorene::Etoile::a_car, Lorene::Etoile_rot::b_car, Lorene::Etoile_rot::bbb, Lorene::Etoile_rot::del_deriv(), Lorene::Etoile_rot::dzeta, Lorene::exp(), Lorene::Etoile_rot::extrinsic_curvature(), Lorene::Etoile_rot::logn, Lorene::Etoile::nnn, Lorene::Tenseur::set(), Lorene::Tenseur::set_etat_qcq(), Lorene::Tenseur::set_std_base(), Lorene::Etoile_rot::tggg, and Lorene::Etoile::unsurc2.
Description of the stellar surface: returns a 2-D Tbl
containing the values of the radial coordinate
The stellar surface is defined as the location where the enthalpy (member ent
) vanishes.
Definition at line 101 of file etoile_global.C.
References Lorene::Etoile::l_surf(), Lorene::Etoile::p_l_surf, and Lorene::Etoile::p_xi_surf.
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Backward redshift factor at equator.
Definition at line 545 of file et_rot_global.C.
References Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::mp, Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, Lorene::Etoile::nzet, Lorene::Etoile_rot::p_z_eqb, Lorene::Etoile_rot::r_circ(), Lorene::sqrt(), and Lorene::Etoile_rot::uuu.
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Forward redshift factor at equator.
Definition at line 513 of file et_rot_global.C.
References Lorene::Map::get_mg(), Lorene::Mg3d::get_nr(), Lorene::Mg3d::get_nt(), Lorene::Mg3d::get_type_t(), Lorene::Etoile::mp, Lorene::Etoile::nnn, Lorene::Etoile_rot::nphi, Lorene::Etoile::nzet, Lorene::Etoile_rot::p_z_eqf, Lorene::Etoile_rot::r_circ(), Lorene::sqrt(), and Lorene::Etoile_rot::uuu.
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Redshift factor at North pole.
Definition at line 580 of file et_rot_global.C.
References Lorene::Etoile::nnn, Lorene::Etoile_rot::p_z_pole, and Lorene::Etoile::ray_pole().
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Function
This function is linked to the components of the fluid 4-velocity by
The first argument of frot
must be
Definition at line 85 of file et_rot_diff.h.
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Field
Definition at line 105 of file et_rot_diff.h.
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Maximum value of
Definition at line 108 of file et_rot_diff.h.
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Minimum value of
Definition at line 107 of file et_rot_diff.h.
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Parameters of the function
To be used as the second argument of functions frot
and primfrot
. The parameter par_frot(0)
must always be the central angular velocity.
Definition at line 102 of file et_rot_diff.h.
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Field
Definition at line 111 of file et_rot_diff.h.
Primitive of the function
The first argument of primfrot
must be
Definition at line 93 of file et_rot_diff.h.
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Effective source at the previous step for the resolution of the Poisson equation for the scalar Map_et::poisson
.
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Effective source at the previous step for the resolution of the Poisson equation for nuf
by means of Map_et::poisson
.
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Effective source at the previous step for the resolution of the Poisson equation for nuq
by means of Map_et::poisson
.
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Effective source at the previous step for the resolution of the vector Poisson equation for
mp
)
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