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Build Status Coverage StatusDOI

Minimint (MIni Mist INTerpolation)

Python package to perform simple interpolation of MIST isochrones.

Author: Sergey Koposov (2020-2024) skoposov AT ed DOT ac DOT uk

Instructions

  • Install minimint. You can either pip install the released version or install from github
pip install minimint
  • Download and prepare isochrone files
minimint.download_and_prepare()

That will download everything and process the evolutionary tracks and bolometric corrections by creating the necessary files for the package.

minimint.download_and_prepare() by default creates bolometric corrections for these filters 'DECam', 'GALEX', 'PanSTARRS', 'SDSSugriz', 'SkyMapper','UBVRIplus', 'WISE' If you need additional filters, you can specify them using the filters parameter

minimint.download_and_prepare(filters=['JWST','WISE','DECam', 'GALEX', 'PanSTARRS', 'SDSSugriz', 'SkyMapper','UBVRIplus']) Check which filters are available on the MIST website http://waps.cfa.harvard.edu/MIST/model_grids.html This will take some time (20-30 min) and will use significant disk space (10-30 Gb).

If you want to put those processed isochrone files in a location different from the site-packages folder of minimint, you can use the outp_prefix parameter of download_and_prepare. You then will need to either specify the location each time when you construct the interpolators or with the MINIMINT_DATA_PATH environment variable

Usage

In order to create an interpolator object for two filters (your can provide a list of any numbers of filters)

ii = minimint.Interpolator(['DECam_g','DECam_r'])

The interpolator is a callable, so you can call it on mass, log10(age), feh

ii(mass, logage, feh)

This returns a dictionary with photometry, logg, logteff and logl.

You also can use the interpolator to find the maximum valid mass on the isochrone.

ii.getMaxMass(logage, feh)

Examples

See the notebook in the examples folder

Synthetic stellar populations

If you are interested in synthetic stellar populations you will need the implementation of the IMF. For this you may want to use https://github.com/keflavich/imf

Acknowledgement

If you are using this package please cite it through zenodo link https://doi.org/10.5281/zenodo.4002971 Also make sure you acknowledge MIST isochrones https://waps.cfa.harvard.edu/MIST/