t_wind Struct Reference

#include <wind.h>

Collaboration diagram for t_wind:

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Data Fields

float windv0
float comass
float windv
float emdot
bool lgWindOK
float AccelAver
float acldr
float agrav
float AccelTot
float AccelCont
float AccelLine
float AccelPres
float fmul
float AccelMax
bool lgVelPos

Detailed Description

wind.h

Definition at line 4 of file wind.h.


Field Documentation

variables for tracking average radiative acceleration

Definition at line 24 of file wind.h.

Referenced by IterRestart(), IterStart(), lgConvPres(), PrtFinal(), and zero().

AccelCont continuum radiative acceleration - old faccel(1)

Definition at line 34 of file wind.h.

Referenced by lgConvPres(), PrtZone(), PunchDo(), radius_increment(), RT_radiative_acceleration(), and zero().

AccelLine line radiative acceleration - old faccel(2)

Definition at line 37 of file wind.h.

Referenced by lgConvPres(), PrtZone(), PunchDo(), radius_increment(), RT_radiative_acceleration(), and zero().

AccelMax is largest acceleration, usually at illuminated face

Definition at line 46 of file wind.h.

Referenced by IterRestart(), lgConvPres(), radius_increment(), and zero().

AccelPres change in pressure acceleration - old faccel(3)

Definition at line 40 of file wind.h.

Referenced by lgConvPres(), PrtZone(), radius_increment(), RT_radiative_acceleration(), and zero().

AccelTot is total radiative acceleration, lines and continuum

Definition at line 31 of file wind.h.

Referenced by CoolEvaluate(), lgConvPres(), PrtZone(), PunchDo(), radius_first(), radius_increment(), radius_next(), RT_line_one_tauinc(), RT_radiative_acceleration(), and zero().

Definition at line 24 of file wind.h.

Referenced by IterRestart(), IterStart(), lgConvPres(), PrtFinal(), and zero().

inward gravitational acceleration

Definition at line 28 of file wind.h.

Referenced by AbundancesSet(), lgConvPres(), PrtZone(), and zero().

contral object mass, to compute inward acceleration

Definition at line 11 of file wind.h.

Referenced by AbundancesSet(), lgConvPres(), ParseDynaWind(), and zero().

mass loss rate, n*v, set in parsecommands. needs r^2 to be real flux

Definition at line 18 of file wind.h.

Referenced by lgConvPres(), ParseCommands(), PrtComment(), and zero().

float t_wind::fmul

force multiplyer

Definition at line 43 of file wind.h.

Referenced by PrtZone(), PunchDo(), radius_increment(), and zero().

flag set if wind solution had negative velocity

Definition at line 49 of file wind.h.

Referenced by iter_end_check(), IterRestart(), lgConvPres(), and zero().

*flag set if wind not ok, (below sonic point)

Definition at line 21 of file wind.h.

Referenced by ParseDynaWind(), PrtComment(), and zero().

parameters for wind model; initial wind velocity, will be negative for D-critical flow

Definition at line 8 of file wind.h.

Referenced by iter_end_check(), IterRestart(), Magnetic_evaluate(), ParseCommands(), ParseDynaTime(), ParseDynaWind(), PrtComment(), RT_LineWidth(), velset(), and zero().


The documentation for this struct was generated from the following file:

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