[FLASH-USERS] Initializing B-fields on AMR domains
Paul Ricker
pmricker at illinois.edu
Fri Jul 29 12:09:00 EDT 2011
Why not use the projection method with the AMR
Poisson solver? This is the kind of difficulty
it is designed to cope with.
Paul
On Fri Jul 29 2011 10:26:02 AM CDT, John ZuHone <jzuhone at cfa.harvard.edu> wrote:
> Hi all,
>
> Just a general AMR question that I have been struggling with for a while
> and I wanted to see if anyone here had any insights (I run both Enzo and
> FLASH and this *should* apply to both, I think, with subtle
> modifications).
>
> Suppose you have a general, non-analytic magnetic field configuration
> (say, initially tangled or something). Suppose you want to initialize it
> on a grid such that it is divergence-free. If you have a uniform grid,
> one could try:
>
> 1) Setting up a vector potential on the grid and then taking the curl
> 2) Setting up a magnetic field, transforming to Fourier space, and
> removing the divergence terms in Fourier space, then transforming back
> to real space. 3) The projection method using a Poisson solver
>
> All of these strategies have worked well for me in terms of setting up
> divergenceless fields on uniform grids. However, when interpolating this
> field onto an *initial* AMR grid, this gets tricky. I have tried
> modifications of the above proposals but have not really had that much
> luck. I always seem to end up with divergence terms at refinement
> boundaries.
>
> I have been setting up divergenceless magnetic fields in my FLASH sims
> so far by interpolating a low-res, uniformly-gridded field onto the
> minimum fully-refined level (root grid in Enzo parlance), then using the
> code interpolation machinery to interpolate this field to the other
> refinement levels. So far this has worked, but it is a tad
> unsatisfactory since I would prefer my initial field to sample the
> higher resolution elements from the get-go. Unfortunately, I need to
> have the grid with a non-uniform refinement from the start.
>
> Has anyone else had to deal with this problem, and how did you?
>
> Best,
>
> John ZuHone
>
--
Paul M. Ricker
University of Illinois
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