Calibrating the James Webb Space Telescope filters as star formation rate indicators

Abstract

We have calibrated the 6.5 m James Webb Space Telescope (JWST) mid-infrared filters as star formation rate indicators, using JWST photometry synthesized from Spitzer spectra of 49 low redshift galaxies, which cover a wider luminosity range than most previous studies. We use Balmer decrement corrected Hα luminosity and synthesized mid-infrared photometry to empirically calibrate the Spitzer, WISE and JWST filters as star formation rate indicators. Our Spitzer and WISE calibrations are in good agreement with recent calibrations from the literature. While mid-infrared luminosity may be directly proportional to star formation rate for high luminosity galaxies, we find a power-law relationship between mid-infrared luminosity and star formation rate for low luminosity galaxies (L Hα ≤ 1043~ erg~s-1). We find that for galaxies with a Hα luminosity of 1040~erg~s-1 (corresponding to a star formation rate of 0.055~ M~yr-1), the corresponding JWST mid-infrared L luminosity is between 1040.50 and 1041.00~erg~s-1. Power-law fits of JWST luminosity as a function of Hα luminosity have indices between 1.17 and 1.32. We find that the scatter in the JWST filter calibrations decreases with increasing wavelength from 0.39 to 0.20 dex, although F1000W is an exception where the scatter is just 0.24 dex.