Resolved Profiles of Stellar Mass, Star Formation Rate, and Predicted CO-to-H2 Conversion Factor Across Thousands of Local Galaxies

Abstract

We present radial profiles of surface brightness in UV and IR bands, estimate stellar mass surface density () and star formation rate surface density (SFR), and predict the CO-to-H2 conversion factor (αCO) for over 5,000 local galaxies with stellar mass M\,≥\,109.3\,M. We build these profiles and measure galaxy half-light radii using GALEX and WISE images from the z0MGS program, with special care given to highly inclined galaxies. From the UV and IR surface brightness profiles, we estimate and SFR and use them to predict αCO with state-of-the-art empirical prescriptions. We validate our (kpc-scale) αCO predictions against observational estimates, finding the best agreement when accounting for CO-dark gas as well as CO emissivity and excitation effects. The CO-dark correction plays a primary role in lower-mass galaxies, whereas CO emissivity and excitation effects become more important in higher-mass and more actively star-forming galaxies, respectively. We compare our estimated αCO to observed galaxy-integrated SFR to CO luminosity ratio as a function of M. A large compilation of literature data suggests that star-forming galaxies with M = 109.5-11\,M show strong anti-correlations of SFR/LCO(1-0) M-0.29 and SFR/LCO(2-1) M-0.40. The estimated αCO trends, when combined with a constant molecular gas depletion time tdep, can only explain ≈1/3 of these SFR/LCO trends. This suggests that tdep being systematically shorter in lower-mass star-forming galaxies is the main cause of the observed SFR/LCO variations. (Abridged)

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