This is a set of tools to compute synthetic photometry in a simple way, ideal to integrate in larger projects.
full documentation at: http://mfouesneau.github.io/docs/pyphot/
The inputs are photonic or energetic response functions for the desired photometric bands and stellar spectra. The modules are flexible to handle units in the wavelength definition through a simplified version of pint (link) and astropy.units
Filters are represented individually by a Filter object. Collections of filters are handled with a Library. We provide an internal library that contains a signitificant amount of common filters.
Each filter is minimally defined by a wavelength and throughput. Many properties such as central of pivot wavelength are computed internally. When units are provided for the wavelength, zero points in multiple units are also accessible (AB, Vega magnitude, Jy, erg/s/cm2/AA). The default detector type is assumed to be photonic, but energetic detectors are also handled for the computations.
- [November 6, 2019] astropy version available in beta (from pyphot import astropy as pyphot)
- [April 29, 2019] sandbox contains fully unit aware passbands and lick indices libraries
- [April 15, 2019] merged UncertainFilter to main, sandbox contains passbands accounting for spectrum units
- [March 4, 2019] added flux calculations in photon/s/cm2
- [March 4, 2019] added many properties per filter (lphot, lmin, lmax)
- [June 12, 2018] adding Sun reference spectra (see :class:Sun)
- [Apr. 26, 2018] includes Gaia nominal, DR2 and revised DR2 passbands
- Install with pip
pip install git+https://github.com/mfouesneau/pyphot
(--user if you want to install it in your user profile)
- Manual installation
download the repository and run the setup
python setup.py install
Author:
Morgan Fouesneau
Direct contributions to the code base:
- Tim Morton (@timothydmorton)
- Ariane Lancon (@lancon)