Massive star feedback in clusters: variation of the FUV interstellar radiation field in time and space
Ali A. A. & Harries T. J., 2019, MNRAS, 487, 4890 (doi:10.1093/mnras/stz1673)

notes
- ???? indicates dump number 
- ### indicates source number (001-029, descending in initial mass)

preburst = initial hydro-only phase (before stars inserted)
- dumps from 0000-0074
- dumps separated by 3.8648e4 yr (0.01 free-fall time)

ionrp = ionization + radiation pressure
- dumps from 0075-0433
- radiation initiated from 0075
- dumps separated by 2e4 yr between 0075-0147 / 1e4 yr between 0147-0433

ion = ionization only, no radiation pressure
- dumps from 0075-0267
- radiation initiated from 0075
- dumps separated by 2e4 yr between 0075-0248 / 1e4 yr between 0248-0267

----------------

grids????-????.zip (grouped in sets of 5)
- dump_????.grid (torus grid file)

dumpvtu????-????.zip (grouped in sets of 10)
- dump_????.vtu (vtk files for grid, e.g. density, temperature, etc.)

nbody.zip
- nbody_????.vtk (vtk files for sources)

source.zip
- source_????.dat (torus source file)

logs.zip
- parameters.dat (torus parameters file)
- log (torus print statements)

radial.zip
nb: columns are (1) r (2) rho (3) u (4) rhoe (5) p (6) phi_stars (7) phi_gas (8) kappa*Flux (9) radmom (10) radpressure (11) temperature (12) tdust
- radial+X????.dat (cell values from grid centre to boundary, advancing in +x direction)  
- radial+Y????.dat (+y direction)
- radial+Z????.dat (+z direction)
- radial+XYZ????.dat (+xyz direction)

columnz.zip
- columnz_????.fits (fits files showing column density in g/cm2)

sourceinfo.zip
- sourceinfo_###.dat (ascii tables for star number ###, e.g. mass, radius, luminosity, position)

analysis.zip
- plotting scripts
   - starburst.py (star positions and column density at starburst)
   - makeplot.py (bulk grid properties)
   - multifits.py (column density snapshots)
   - densitypdfSinglePlot.py (column density PDFs)
   - globaltempplot.py (T vs time)
   - globalneplot.py (ne vs time)
   - habingplot_distance.py (G0 vs distance)
   - habingplot_multi_logscale.py (G0 vs time)
   - habingplot_singlefits.py (column density and G0 at star 5)
   - habingplot_cdf.py (cdf of G0)
   - myConstants.py (constants)
- tables of data
   - tableoftotals_ionrp.dat (total of variables on grid, eg mass)
   - tableoftotals_ion.dat 
   - averageHabingFlux_allStars.dat (G0 around each star in Habing units)
   - tauFUVBetweenStars.dat (optical depth between star 1 and other stars)
   - avgtempGlobalRms_*.dat (avg T - hiidensity, mass)