#include <dynamics.h>
Data Fields | |
bool | lgAdvection |
double | Cool |
double | Heat |
double | dCooldT |
double | dHeatdT |
double | CoolMax |
double | HeatMax |
double | Rate |
double ** | Source |
double * | H2_molec |
double * | CO_molec |
bool | lgISO [NISO] |
bool | lgMETALS |
bool | lgCoolHeat |
bool | lg_coronal_time_init |
bool | lgStatic |
double | time_elapsed |
bool | lgRecom |
bool | lgStatic_completed |
double | AdvecLengthInit |
double | FluxCenter |
char | chPresMode [20] |
double | ShockDepth |
double | ShockMach |
double | FluxScale |
bool | lgFluxDScale |
double | FluxIndex |
double | dRad |
double | oldFullDepth |
double | convergence_error |
double | convergence_tolerance |
double | discretization_error |
double | error_scale1 |
double | error_scale2 |
bool | lgSetPresMode |
float | dDensityDT |
long | iteration_first_dynamics |
Definition at line 54 of file dynamics.h.
double t_dynamics::AdvecLengthInit |
the initial value of the advection length, reset with set advection length
Definition at line 101 of file dynamics.h.
Referenced by DynaEndIter(), DynaZero(), and ParseSet().
char t_dynamics::chPresMode[20] |
flag set by the "set dynamics pressure mode" command
Definition at line 107 of file dynamics.h.
Referenced by DynaPresChngFactor(), and ParseSet().
double* t_dynamics::CO_molec |
Definition at line 73 of file dynamics.h.
Referenced by CO_solve(), DynaCreateArrays(), DynaIonize(), and hmole_step().
convergence_error and discretization_error give estimates of convergence: :: convergence_error -- change between the last iterations; :: discretization_error -- error in the upstream interpolation. When (and if) discretization_error >> convergence_error, the interpolation length should be decreased.
They should both be based on the same norm of the models, but what norm may be experimented with -- at present, it's H+/Htot just weighted by cell number, which makes the estimates sensitive to the structure of the primary ionization front.
Definition at line 141 of file dynamics.h.
Referenced by ConvIterCheck(), and DynaNewStep().
the allowed rel error, by default 0.1
Definition at line 144 of file dynamics.h.
Referenced by ConvIterCheck(), DynaNewStep(), and DynaZero().
double t_dynamics::Cool |
advective cooling minus heating (erg cm^-3 s^-1)
Definition at line 60 of file dynamics.h.
Referenced by CoolEvaluate(), CoolPunch(), DynaEndIter(), DynaIonize(), DynaPrtZone(), DynaPunch(), DynaZero(), HeatPunch(), lines_general(), and PunchDo().
double t_dynamics::CoolMax |
largest fraction of cooling and heating
Definition at line 63 of file dynamics.h.
Referenced by DynaZero(), IterStart(), lines_general(), and PrtComment().
double t_dynamics::dCooldT |
Definition at line 60 of file dynamics.h.
Referenced by CoolEvaluate(), DynaIonize(), DynaPunch(), and DynaZero().
float t_dynamics::dDensityDT |
deriv of density needed for expansion cooling
Definition at line 157 of file dynamics.h.
Referenced by CoolEvaluate(), IterRestart(), IterStart(), lgConvPres(), and zero().
double t_dynamics::dHeatdT |
Definition at line 60 of file dynamics.h.
Referenced by CoolEvaluate(), DynaIonize(), and DynaZero().
the error to be expected based on the coarseness of current advection length
Definition at line 147 of file dynamics.h.
Referenced by ConvIterCheck(), DynaEndIter(), DynaNewStep(), DynaStartZone(), and DynaZero().
double t_dynamics::dRad |
the proposed thickness for the next zone when advection is included
Definition at line 126 of file dynamics.h.
Referenced by DynaStartZone(), DynaZero(), and radius_next().
double t_dynamics::error_scale1 |
two ways of scaling the error estimate for convergence
Definition at line 150 of file dynamics.h.
Referenced by DynaNewStep().
double t_dynamics::error_scale2 |
Definition at line 150 of file dynamics.h.
Referenced by ConvIterCheck(), DynaEndIter(), DynaNewStep(), DynaStartZone(), and DynaZero().
double t_dynamics::FluxCenter |
the center of the particle flux law
Definition at line 104 of file dynamics.h.
Referenced by DynaFlux(), DynaZero(), and ParseDynaWind().
double t_dynamics::FluxIndex |
the power law index of the particle flux law
Definition at line 123 of file dynamics.h.
Referenced by DynaFlux(), DynaZero(), and ParseDynaWind().
double t_dynamics::FluxScale |
the scale of the particle flux law
Definition at line 117 of file dynamics.h.
Referenced by DynaFlux(), DynaZero(), and ParseDynaWind().
double* t_dynamics::H2_molec |
save H2 and CO densities
Definition at line 72 of file dynamics.h.
Referenced by DynaCreateArrays(), DynaIonize(), and hmole_step().
double t_dynamics::Heat |
Definition at line 60 of file dynamics.h.
Referenced by CoolEvaluate(), CoolPunch(), DynaIonize(), DynaPrtZone(), DynaPunch(), DynaZero(), HeatPunch(), lines_general(), and PunchDo().
double t_dynamics::HeatMax |
Definition at line 63 of file dynamics.h.
Referenced by DynaZero(), IterStart(), lines_general(), and PrtComment().
first iteration where dynamics is included - default is 2 - the second true iteration, set with SET DYNAMICS FIRST command
Definition at line 160 of file dynamics.h.
Referenced by DynaZero(), and ParseSet().
var set with coronal time init - says to use constant temperature on first relax iterations then let temp run free
Definition at line 86 of file dynamics.h.
Referenced by DynaEndIter(), and ParseCoronal().
is advection turned on ?, set to false in zero
Definition at line 57 of file dynamics.h.
Referenced by advection_set_detault(), CO_solve(), ConvBase(), ConvIterCheck(), DynaZero(), HeLikeLevel(), hmole_step(), HydroLevel(), HydroLevelPop(), ion_solver(), IterRestart(), PrtZone(), radius_increment(), radius_next(), ZoneEnd(), and ZoneStart().
factor to turn off advective cooling
Definition at line 82 of file dynamics.h.
Referenced by DynaIonize(), DynaZero(), and ParseDont().
whether we also need to scale by the face density
Definition at line 120 of file dynamics.h.
Referenced by DynaFlux(), DynaZero(), and ParseDynaWind().
bool t_dynamics::lgISO[NISO] |
factor to turn off advection for H-like or He-like iso seq, no advection h-like, he-like
Definition at line 76 of file dynamics.h.
Referenced by DynaZero(), HeLikeLevel(), HydroLevelPop(), ParseDont(), and PresTotCurrent().
bool t_dynamics::lgMETALS |
factor to turn off advection for rest of ions, "no advection metals"
Definition at line 79 of file dynamics.h.
Referenced by DynaZero(), ParseDont(), and PresTotCurrent().
bool t_dynamics::lgRecom |
true if recombination logic in place
Definition at line 95 of file dynamics.h.
Referenced by DynaEndIter(), DynaZero(), PrtComment(), radius_next(), and timestep_next().
flag set true if set dynamics flow type was set - this means to use the specified option, and not to derive one
Definition at line 154 of file dynamics.h.
Referenced by DynaPresChngFactor(), DynaZero(), and ParseSet().
bool t_dynamics::lgStatic |
set true if static time dependent
Definition at line 89 of file dynamics.h.
Referenced by DynaEndIter(), DynaIonize(), DynaPresChngFactor(), DynaZero(), lgConvPres(), ParseDynaTime(), PresTotCurrent(), PrtComment(), PunchDo(), radius_first(), and radius_next().
true if model ends since time dependent model is finished
Definition at line 98 of file dynamics.h.
Referenced by cloudy(), DynaEndIter(), and DynaZero().
double t_dynamics::oldFullDepth |
the depth of the last iteration
Definition at line 129 of file dynamics.h.
Referenced by DynaCreateArrays(), DynaIonize(), DynaSaveLast(), and ion_solver().
double t_dynamics::Rate |
the advection rate (s^-1)
Definition at line 66 of file dynamics.h.
Referenced by CO_solve(), DynaCreateArrays(), DynaIonize(), DynaPunch(), DynaStartZone(), DynaZero(), HeLikeLevel(), hmole_step(), HydroLevelPop(), ion_solver(), and PunchDo().
double t_dynamics::ShockDepth |
the shock depth in cm set with "set dynamics shock depth" command
Definition at line 110 of file dynamics.h.
Referenced by DynaPresChngFactor(), and ParseSet().
double t_dynamics::ShockMach |
the isothermal Mach number at which to insert an antishock set with "set dynamics antishock mach" command
Definition at line 114 of file dynamics.h.
Referenced by DynaPresChngFactor(), and ParseSet().
double** t_dynamics::Source |
the advective recombination rate (s^-1)
Definition at line 69 of file dynamics.h.
Referenced by DynaCreateArrays(), DynaIonize(), DynaPunch(), DynaStartZone(), HeLikeLevel(), HydroLevelPop(), ion_solver(), and PunchDo().
double t_dynamics::time_elapsed |
elapsed time in time dependent static model
Definition at line 92 of file dynamics.h.
Referenced by DynaEndIter(), DynaPunchTimeDep(), DynaZero(), and PunchDo().