[yt-dev] Photon fields

Eric Hallman hallman13 at gmail.com
Fri Jun 15 09:11:11 PDT 2012


John and Matt,
  so this sort of thing was on my to do list for a Chandra theory grant I'm
currently on.  If something is already working or in the works, I'm happy
to defer, and even help implement it.  I have a copy of PHOX, which I can
run and do things with, but had planned to eventually incorporate into yt
(with Matt's help).

In the more general sense of generating photon fields, I totally support
this, and would find it useful for all kinds of projects with synthetic
observations.  I think your intuition is right on, that even though
observed photons are along an particular direction, a "photon emissivity"
in 3d in some band or set of wavelengths could function exactly as other
emissivity type grid fields.

Anyway, let me know what methodology you had in mind, and if you'd like an
assistant ;)
I have done a few of things with stand alone codes before, and they sort of
worked.

Cheers,

Eric

On Fri, Jun 15, 2012 at 11:59 AM, Matthew Turk <matthewturk at gmail.com>wrote:

> Hi John,
>
> Hopefully our resident X-ray observation syntheticist Eric Hallman can
> also chime in, but I have a few comments.
>
> On Thu, Jun 14, 2012 at 3:33 PM, John ZuHone <jzuhone at gmail.com> wrote:
> > Hi all,
> >
> > Just wanted to sort of poll all of you on an idea I've been kicking
> around. I don't know how useful it will be for non X-ray people, but I
> thought I'd give it a shot.
> >
> > There are a number of tools out there designed to create synthetic X-ray
> observations from simulations, both AMR and SPH. Of the tools adapted for
> AMR codes, they tend to be a little clunky and most of them use IDL to
> extract data. Almost always, gas grid data is regridded to a uniform grid
> before doing anything with it, making working on large volumes with small
> resolution prohibitive.
> >
> > PHOX is a tool written by Veronica Biffi and Klaus Dolag to generate
> X-ray observations from (primarily) Gadget simulations. You can find out
> about it here:
> >
> > http://www.mpa-garching.mpg.de/~kdolag/Phox/
> >
> > The pipeline for most virtual X-ray observatories goes like this:
> >
> > 1) Using the gas properties (density, temperature, metallicity,
> whatever), generate X-ray emissivity fields.
> > 2) Project these fields along the chosen line of sight to give a 2D map
> of surface brightness.
> > 3) Using this map as a DF for the photons, generate simulated photons
> which then may be processed later.
> >
> > PHOX's (in my estimation, better) approach is:
> >
> > 1) Using the gas properties (density, temperature, metallicity,
> whatever), generate X-ray emissivity fields.
> > 2) Generate simulated photons from the emissivity field, assuming a
> fiducial instrument area and exposure time.
> > 3) Project these photons along a given line of sight, which may be
> processed later.
> >
> > The nice thing about doing things this way is that you can save the
> photons to disk to be re-used for a variety of different projections and
> X-ray instruments.
> >
> > I am writing a tool that uses yt to get data from AMR simulations to
> generate photon files readable by PHOX. My intention is that this be a
> standalone tool that I will make publically available, but it got me
> thinking about the possible usefulness of "photon fields" in yt, akin to
> the 3D fields of photons that are written to PHOX photon files. Basically,
> these are akin to particle fields, with the (x,y,z) position of the photon,
> its (unshifted) energy, and the (vx,vy,vz) velocity of the emitting gas for
> Doppler shifting. I don't know if the more general concept of these photon
> fields would be a useful construct to include in yt at some level or not
> for constructing simulated observations.
>
> Are the photon files not 1:1 mapping with the individual cells?
>
> In general, I am 100% on board with this.  This speaks also to the
> concept we've talked about in the past of 'sidecar' files in, say,
> Grid Data Format.  You could specify a fallback file for IO, which can
> also be written to.
>
> I think this is a very valuable concept, and we can work within the
> PHOX goals to make something that could accept, say, contour
> identification or expensive derivative-based fields (looking at you,
> baroclinic terms.)
>
> >
> > The main difference between these fields and others in yt is that these
> entities are slightly more abstract than physical: real photons are of
> course emitted in a particular direction and received by the observer. But
> I would guess that this subtle point would not be much of an issue since
> really the only thing you would be doing with them after generating them
> would be projecting them along a line of sight.
>
> No, I think it is fine, like you say.
>
> This could be very exciting -- and in general, I'm really very much in
> favor of making it easier to interoperate with other analysis codes.
> This mailing list would be a good place to sound off on design ideas
> as well as figure out how to fit it in together.  yt gets used a lot
> by cluster simulators, so I could see this also having broad appeal.
>
> -Matt
>
> >
> > So I guess my idea would be to build in the framework for photon fields,
> along with capabilities for projecting them and doppler shifting them,
> while letting the details of the generation of their positions and energies
> up to the user. Would any of the rest of you or your colleagues find such a
> thing useful? Thoughts?
> >
> > Best,
> >
> > John Z
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