| ... | @@ -279,18 +279,18 @@ possible values or a numeric range. |
... | @@ -279,18 +279,18 @@ possible values or a numeric range. |
|
|
magnetic field component is obtained by a divergence-free
|
|
magnetic field component is obtained by a divergence-free
|
|
|
extrapolation.
|
|
extrapolation.
|
|
|
|
|
|
|
|
- `O`: outflow -- fluid is allowed to flow outwards through
|
|
- `O`: outflow - fluid is allowed to flow outwards through
|
|
|
the corresponding domain boundary but not to flow inwards.
|
|
the corresponding domain boundary but not to flow inwards.
|
|
|
For the perpendicular velocity component this means
|
|
For the perpendicular velocity component this means
|
|
|
$u_o=\mp\operatorname{sgn}u_i\cdot u_i$ where the
|
|
$u_o=\mp\operatorname{sgn}u_i\cdot u_i$ where the
|
|
|
'+'('-')-sign is valid for a lower (upper) domain boundary.
|
|
'+'('-')-sign is valid for a lower (upper) domain boundary.
|
|
|
Other variables are set likewise to inflow I.
|
|
Other variables are set likewise to inflow I.
|
|
|
|
|
|
|
|
- `M`: mirror symmetry -- reflecting conditions, $u_o=-u_i$,
|
|
- `M`: mirror symmetry - reflecting conditions, $u_o=-u_i$,
|
|
|
for the perpendicular components of velocity and magnetic
|
|
for the perpendicular components of velocity and magnetic
|
|
|
field. Zero derivative for the other variables.
|
|
field. Zero derivative for the other variables.
|
|
|
|
|
|
|
|
- `A`: anti-mirror symmetry -- same as M for non-magnetic
|
|
- `A`: anti-mirror symmetry - same as M for non-magnetic
|
|
|
variables. The magnetic field is forced to have dipole
|
|
variables. The magnetic field is forced to have dipole
|
|
|
parity with respect to the domain boundary. This means
|
|
parity with respect to the domain boundary. This means
|
|
|
$u_o=-u_i$ for the parallel magnetic field components and
|
|
$u_o=-u_i$ for the parallel magnetic field components and
|
| ... | @@ -299,26 +299,26 @@ possible values or a numeric range. |
... | @@ -299,26 +299,26 @@ possible values or a numeric range. |
|
|
- `R`: reflection-on-axis (only of relevance in cylindrical
|
|
- `R`: reflection-on-axis (only of relevance in cylindrical
|
|
|
geometry at the $y$-lower boundary at $R=0$ or in
|
|
geometry at the $y$-lower boundary at $R=0$ or in
|
|
|
spherical geometry at the $y$-lower/upper boundaries at
|
|
spherical geometry at the $y$-lower/upper boundaries at
|
|
|
$\theta =0,\pi$) -- reflecting conditions at the geometric
|
|
$\theta =0,\pi$) - reflecting conditions at the geometric
|
|
|
axis. Same as M except for the azimutal magnetic field
|
|
axis. Same as M except for the azimutal magnetic field
|
|
|
component for which $u_o=-u_i$.
|
|
component for which $u_o=-u_i$.
|
|
|
|
|
|
|
|
- `C`: reflection-at-center (only of relevance in spherical
|
|
- `C`: reflection-at-center (only of relevance in spherical
|
|
|
geometry at the $x$-lower boundary at $r=0$) -- reflecting
|
|
geometry at the $x$-lower boundary at $r=0$) - reflecting
|
|
|
conditions at the coordinate center. Same as M except for
|
|
conditions at the coordinate center. Same as M except for
|
|
|
the non-radial magnetic field components for which
|
|
the non-radial magnetic field components for which
|
|
|
$u_o=-u_i$.
|
|
$u_o=-u_i$.
|
|
|
|
|
|
|
|
- `P`: periodicity -- periodic conditions for all variables.
|
|
- `P`: periodicity - periodic conditions for all variables.
|
|
|
|
|
|
|
|
- `D`: default -- zero derivative in the non-magnetic
|
|
- `D`: default - zero derivative in the non-magnetic
|
|
|
variables and perpendicular-to-boundary condition
|
|
variables and perpendicular-to-boundary condition
|
|
|
(pseudo-vacuum condition) for the magnetic field.
|
|
(pseudo-vacuum condition) for the magnetic field.
|
|
|
|
|
|
|
|
- `F`: free boundary (only of relevance in cylindrical
|
|
- `F`: free boundary (only of relevance in cylindrical
|
|
|
geometry at the $y$-lower boundary at $R=0$ or in
|
|
geometry at the $y$-lower boundary at $R=0$ or in
|
|
|
spherical geometry at the $y$-lower/upper boundaries at
|
|
spherical geometry at the $y$-lower/upper boundaries at
|
|
|
$\theta =0,\pi$ and $x$-lower boundary at $r=0$) --
|
|
$\theta =0,\pi$ and $x$-lower boundary at $r=0$) -
|
|
|
'natural' boundary condition at the geometric axis. Boundary
|
|
'natural' boundary condition at the geometric axis. Boundary
|
|
|
values are not set explictely but are implicitly given by
|
|
values are not set explictely but are implicitly given by
|
|
|
$\pi$-shifted values. Note that when a `F`-type boundary
|
|
$\pi$-shifted values. Note that when a `F`-type boundary
|
| ... | | ... | |
