List of parameters for `zaver.in`

This page lists 187 variables distributed into 13 files. Of these:

185 (99%) are documented;
2 (1%) are undocumented.

Some of the variable names are shared amongst modules, so there are 129 unique names:

72 variables appear 1 time;
56 variables appear 2 times;
1 variable appears 3 times.

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Module density.f90

Variable	Meaning
rhomxy	\(\left<\varrho\right>_{z}\)
rho2mxy	\(\left<\varrho^2\right>_{z}\)
sigma

Module density_stratified.f90

Variable	Meaning
drhomxy	\(\langle\Delta\rho/\rho_0\rangle_z\)
drho2mxy	\(\langle\left(\Delta\rho/\rho_0\right)^2\rangle_z\)
sigma

Module entropy.f90

Variable	Meaning
TTmxy	\(\left< T \right>_{z}\)
ssmxy	\(\left< s \right>_{z}\)
uxTTmxy	\(\left< u_x T \right>_{z}\)
uyTTmxy	\(\left< u_y T \right>_{z}\)
uzTTmxy	\(\left< u_z T \right>_{z}\)
gTxmxy	\(\left<\nabla_x T\right>_{z}\)
gTymxy	\(\left<\nabla_y T\right>_{z}\)
gTzmxy	\(\left<\nabla_z T\right>_{z}\)
gsxmxy	\(\left<\nabla_x s\right>_{z}\)
gsymxy	\(\left<\nabla_y s\right>_{z}\)
gszmxy	\(\left<\nabla_z s\right>_{z}\)
gTxgsxmxy	\(\left<\left(\nabla T\times\nabla s\right)_x\right>_{z}\)
gTxgsymxy	\(\left<\left(\nabla T\times\nabla s\right)_y\right>_{z}\)
gTxgszmxy	\(\left<\left(\nabla T\times\nabla s\right)_z\right>_{z}\)
gTxgsx2mxy	\(\left<\left(\nabla T\times\nabla s\right)_x^2\right>_{z}\)
gTxgsy2mxy	\(\left<\left(\nabla T\times\nabla s\right)_y^2\right>_{z}\)
gTxgsz2mxy	\(\left<\left(\nabla T\times\nabla s\right)_z^2\right>_{z}\)
fconvxy	\(\left<c_p \varrho u_x T \right>_{z}\)
fconvyxy	\(\left<c_p \varrho u_y T \right>_{z}\)
fconvzxy	\(\left<c_p \varrho u_z T \right>_{z}\)
fradxy_Kprof	\(F^{\mathrm rad}_x\) (\(x\) -component of radiative flux, \(z\) -averaged, from Kprof)
fradymxy_Kprof	\(F^{\mathrm rad}_y\) (\(y\) -component of radiative flux, \(z\) -averaged, from Kprof)
fradxy_kramers	\(F_{\mathrm rad}\) (\(z\) -averaged, from Kramers’ opacity)
fradr_constchixy	\(F_{\mathrm rad}\) (from chi_const)
fturbxy	\(\left<\varrho T \chi_t \nabla_x s\right>_{z}\)
fturbymxy	\(\left<\varrho T \chi_t \nabla_y s\right>_{z}\)
fturbrxy	\(\left<\varrho T \chi_{ri} \nabla_i s\right>_{z}\) \(\quad\) (radial part of anisotropic turbulent heat flux)
fturbthxy	\(\left<\varrho T \chi_{\theta i} \nabla_i s\right>_{z}\) \(\quad\) (latitudinal part of anisotropic turbulent heat flux)
dcoolxy	surface cooling flux

Module gravity_simple.f90

Variable	Meaning
epotmxy	\(\left<\varrho \Phi_{\mathrm grav} \right>_{z}\)
epotuxmxy	\(\left<\varrho \Phi_{\mathrm grav} u_x \right>_{z}\) \(\quad\) (potential energy flux)

Module hydro.f90

Variable	Meaning
uxmxy	\(\left< u_x \right>_{z}\)
uymxy	\(\left< u_y \right>_{z}\)
uzmxy	\(\left< u_z \right>_{z}\)
uxupmxy	\(\left< u_{x\uparrow} \right>_{z}\)
uxdownmxy	\(\left< u_{x\downarrow} \right>_{z}\)
ruxupmxy	\(\left<\rho u_{x\uparrow} \right>_{z}\)
ruxdownmxy	\(\left<\rho u_{x\downarrow} \right>_{z}\)
ux2upmxy	\(\left< u^2_{x\uparrow} \right>_{z}\)
ux2downmxy	\(\left< u^2_{x\downarrow} \right>_{z}\)
ffdownmxy	Filling factor of downflows
uxuymxy	\(\left< u_x u_y \right>_{z}\)
uxuzmxy	\(\left< u_x u_z \right>_{z}\)
uyuzmxy	\(\left< u_y u_z \right>_{z}\)
Rxymxy	\(\left<u_x' u_y'\right>_{z}\)
Rxyupmxy	\(\left<(u_x' u_y')_\uparrow\right>_{z}\)
Rxydownmxy	\(\left<(u_x' u_y')_\downarrow\right>_{z}\)
Rxzmxy	\(\left<u_x' u_z'\right>_{z}\)
Rxzupmxy	\(\left<(u_x' u_z')_\uparrow\right>_{z}\)
Rxzdownmxy	\(\left<(u_x' u_z')_\downarrow\right>_{z}\)
Ryzmxy	\(\left<u_y' u_z'\right>_{z}\)
Ryzupmxy	\(\left<(u_y' u_z')_\uparrow\right>_{z}\)
Ryzdownmxy	\(\left<(u_y' u_z')_\downarrow\right>_{z}\)
oxmxy	\(\left< \omega_x \right>_{z}\)
oymxy	\(\left< \omega_y \right>_{z}\)
ozmxy	\(\left< \omega_z \right>_{z}\)
oumxy	\(\left<\boldsymbol{\omega} \cdot\uv\right>_{z}\)
pvzmxy	\(\left< (\omega_z+2\Omega)/\varrho \right>_{z}\) \(\quad\) (z component of potential vorticity)
uguxmxy	\(\left< (\boldsymbol{u}\cdot\boldsymbol{\nabla} \boldsymbol{u})_x \right>_{z}\)
uguymxy	\(\left< (\boldsymbol{u}\cdot\boldsymbol{\nabla} \boldsymbol{u})_y \right>_{z}\)
uguzmxy	\(\left< (\boldsymbol{u}\cdot\boldsymbol{\nabla} \boldsymbol{u})_z \right>_{z}\)
ruxmxy	\(\left< \rho u_x \right>_{z}\)
ruymxy	\(\left< \rho u_y \right>_{z}\)
ruzmxy	\(\left< \rho u_z \right>_{z}\)
ux2mxy	\(\left< u_x^2 \right>_{z}\)
uy2mxy	\(\left< u_y^2 \right>_{z}\)
uz2mxy	\(\left< u_z^2 \right>_{z}\)
ox2mxy	\(\left< \omega_x^2 \right>_{z}\)
oy2mxy	\(\left< \omega_y^2 \right>_{z}\)
oz2mxy	\(\left< \omega_z^2 \right>_{z}\)
rux2mxy	\(\left< \rho u_x^2 \right>_{z}\)
ruy2mxy	\(\left< \rho u_y^2 \right>_{z}\)
ruz2mxy	\(\left< \rho u_z^2 \right>_{z}\)
ruxuymxy	\(\left< \rho u_x u_y \right>_{z}\)
ruxuzmxy	\(\left< \rho u_x u_z \right>_{z}\)
ruyuzmxy	\(\left< \rho u_y u_z \right>_{z}\)
fkinxmxy	\(\left<{1\over2}\varrho\uv^2 u_x\right>_{z}\)
fkinymxy	\(\left<{1\over2}\varrho\uv^2 u_y\right>_{z}\)
fkinxupmxy	\(\left<{1\over2}\varrho\uv^2 u_{x\uparrow}\right>_{z}\)
fkinxdownmxy	\(\left<{1\over2}\varrho\uv^2 u_{x\downarrow}\right>_{z}\)

Module hydro_potential.f90

Variable	Meaning
uxmxy	\(\left< u_x \right>_{z}\)
uymxy	\(\left< u_y \right>_{z}\)
uzmxy	\(\left< u_z \right>_{z}\)
uxuymxy	\(\left< u_x u_y \right>_{z}\)
uxuzmxy	\(\left< u_x u_z \right>_{z}\)
uyuzmxy	\(\left< u_y u_z \right>_{z}\)
oxmxy	\(\left< \omega_x \right>_{z}\)
oymxy	\(\left< \omega_y \right>_{z}\)
ozmxy	\(\left< \omega_z \right>_{z}\)
oumxy	\(\left<\boldsymbol{\omega} \cdot\uv\right>_{z}\)
ruxmxy	\(\left< \rho u_x \right>_{z}\)
ruymxy	\(\left< \rho u_y \right>_{z}\)
ruzmxy	\(\left< \rho u_z \right>_{z}\)
ux2mxy	\(\left< u_x^2 \right>_{z}\)
uy2mxy	\(\left< u_y^2 \right>_{z}\)
uz2mxy	\(\left< u_z^2 \right>_{z}\)
rux2mxy	\(\left< \rho u_x^2 \right>_{z}\)
ruy2mxy	\(\left< \rho u_y^2 \right>_{z}\)
ruz2mxy	\(\left< \rho u_z^2 \right>_{z}\)
ruxuymxy	\(\left< \rho u_x u_y \right>_{z}\)
ruxuzmxy	\(\left< \rho u_x u_z \right>_{z}\)
ruyuzmxy	\(\left< \rho u_y u_z \right>_{z}\)
fkinxmxy	\(\left<{1\over2}\varrho\uv^2 u_x\right>_{z}\)
fkinymxy	\(\left<{1\over2}\varrho\uv^2 u_y\right>_{z}\)

Module magnetic.f90

Variable	Meaning
bxmxy	\(\left< B_x \right>_{z}\)
bymxy	\(\left< B_y \right>_{z}\)
bzmxy	\(\left< B_z \right>_{z}\)
jxmxy	\(\left< J_x \right>_{z}\)
jymxy	\(\left< J_y \right>_{z}\)
jzmxy	\(\left< J_z \right>_{z}\)
axmxy	\(\left< A_x \right>_{z}\)
aymxy	\(\left< A_y \right>_{z}\)
azmxy	\(\left< A_z \right>_{z}\)
bx2mxy	\(\left< B_x^2 \right>_{z}\)
by2mxy	\(\left< B_y^2 \right>_{z}\)
bz2mxy	\(\left< B_z^2 \right>_{z}\)
bxbymxy	\(\left< B_x B_y \right>_{z}\)
bxbzmxy	\(\left< B_x B_z \right>_{z}\)
bybzmxy	\(\left< B_y B_z \right>_{z}\)
poynxmxy	\(\left< \Ev\times\Bv \right>_{z}\|_x\)
poynymxy	\(\left< \Ev\times\Bv \right>_{z}\|_y\)
poynzmxy	\(\left< \Ev\times\Bv \right>_{z}\|_z\)
etatotalmxy	\(\left<\eta\right>_{z}\)
jbmxy	\(\left< \Jv\cdot\Bv \right>_{z}\)
abmxy	\(\left< \Av\cdot\Bv \right>_{z}\)
ubmxy	\(\left< \Uv\cdot\Bv \right>_{z}\)
examxy1	\(\left< \Ev\times\Av \right>_{z}\|_x\)
examxy2	\(\left< \Ev\times\Av \right>_{z}\|_y\)
examxy3	\(\left< \Ev\times\Av \right>_{z}\|_z\)
StokesImxy	\(\left< \epsilon_{B\perp} \right>_{z}\|_z\)
StokesQmxy	\(-\left<\epsilon_{B\perp} \cos2\chi \right>_{z}\|_z\)
StokesUmxy	\(-\left<\epsilon_{B\perp} \sin2\chi \right>_{z}\|_z\)
StokesQ1mxy	\(+\left<F\epsilon_{B\perp} \sin2\chi \right>_{z}\|_z\)
StokesU1mxy	\(-\left<F\epsilon_{B\perp} \cos2\chi \right>_{z}\|_z\)
beta1mxy	\(\left< \Bv^2/(2\mu_0 p) \right>_{z}\|_z\)

Module temperature_idealgas.f90

Variable	Meaning
TTmxy	\(\left<T\right>_{z}\)
EmAIA94mxy	Emission off AIA 94 channel integrated over z direction
EmAIA131mxy	Emission off AIA 131 channel integrated over z direction
EmAIA171mxy	Emission off AIA 171 channel integrated over z direction
EmAIA193mxy	Emission off AIA 193 channel integrated over z direction
EmAIA211mxy	Emission off AIA 211 channel integrated over z direction
EmAIA304mxy	Emission off AIA 304 channel integrated over z direction
EmAIA335mxy	Emission off AIA 335 channel integrated over z direction
EmXRTmxy	Emission off XRT Al-poly channel integrated over z direction

Module thermal_energy.f90

Variable	Meaning
TTmxy	\(\left<T\right>_{z}\)

Module viscosity.f90

Variable	Meaning
fviscmxy	\(\left<2\nu\varrho u_i \mathcal{S}_{ix} \right>_{z}\) (\(x\) -xomponent of viscous flux)
fviscsmmxy	\(\left<2\nu_{\mathrm Smag}\varrho u_i \mathcal{S}_{ix} \right>_{z}\) (\(x\) -xomponent of viscous flux)
fviscymxy	\(\left<2\nu\varrho u_i \mathcal{S}_{iy} \right>_{z}\) (\(y\) -xomponent of viscous flux)

Module experimental/magnetic_shearboxJ.f90

Variable	Meaning
bxmxy	\(\left< B_x \right>_{z}\)
bymxy	\(\left< B_y \right>_{z}\)
bzmxy	\(\left< B_z \right>_{z}\)
jxmxy	\(\left< J_x \right>_{z}\)
jymxy	\(\left< J_y \right>_{z}\)
jzmxy	\(\left< J_z \right>_{z}\)
axmxy	\(\left< A_x \right>_{z}\)
aymxy	\(\left< A_y \right>_{z}\)
azmxy	\(\left< A_z \right>_{z}\)
bx2mxy	\(\left< B_x^2 \right>_{z}\)
by2mxy	\(\left< B_y^2 \right>_{z}\)
bz2mxy	\(\left< B_z^2 \right>_{z}\)
bxbymxy	\(\left< B_x B_y \right>_{z}\)
bxbzmxy	\(\left< B_x B_z \right>_{z}\)
bybzmxy	\(\left< B_y B_z \right>_{z}\)
poynxmxy	\(\left< \Ev\times\Bv \right>_{x}\)
poynymxy	\(\left< \Ev\times\Bv \right>_{y}\)
poynzmxy	\(\left< \Ev\times\Bv \right>_{z}\)
jbmxy	\(\left< \Jv\cdot\Bv \right>_{z}\)
abmxy	\(\left< \Av\cdot\Bv \right>_{z}\)
examxy1	\(\left< \Ev\times\Av \right>_{z}\|_x\)
examxy2	\(\left< \Ev\times\Av \right>_{z}\|_y\)
examxy3	\(\left< \Ev\times\Av \right>_{z}\|_z\)
StokesImxy	\(\left< \epsilon_{B\perp} \right>_{z}\|_z\)
StokesQmxy	\(-\left<\epsilon_{B\perp} \cos2\chi \right>_{z}\|_z\)
StokesUmxy	\(-\left<\epsilon_{B\perp} \sin2\chi \right>_{z}\|_z\)
StokesQ1mxy	\(+\left<F\epsilon_{B\perp} \sin2\chi \right>_{z}\|_z\)
StokesU1mxy	\(-\left<F\epsilon_{B\perp} \cos2\chi \right>_{z}\|_z\)
beta1mxy	\(\left< \Bv^2/(2\mu_0 p) \right>_{z}\|_z\)

Module obsolete/special/axionSU2back.f90

Variable	Meaning
grandxy	\(\left< {\cal T}^Q\right>_{z}\)
grantxy	\(\left< {\cal T}^\chi\right>_{z}\)

Module special/axionSU2back.f90

Variable	Meaning
grandxy	\(\left< {\cal T}^Q\right>_{z}\)
grantxy	\(\left< {\cal T}^\chi\right>_{z}\)