SDSS-IV MANGA: A Star Formation -- Baryonic Mass Relation at Kpc Scales
Abstract
Star formation rate density, SFR, has shown a remarkable correlation with both components of the baryonic mass at kpc scales (i.e., the stellar mass density, and the molecular gas mass density; , and mol, respectively) for galaxies in the nearby Universe. In this study we propose an empirical relation between SFR and the baryonic mass surface density ( b = mol,Av + ; where mol,Av is the molecular gas density derived from the optical extinction, Av) at kpc scales using the spatially-resolved properties of the MaNGA survey - the largest sample of galaxies observed via Integral Field Spectroscopy (IFS, 8400 objects). We find that SFR tightly correlates with b. Furthermore, we derive an empirical relation between the SFR and a second degree polynomial of b yielding a one-to-one relation between these two observables. Both, b and its polynomial form show a stronger correlation and smaller scatter with respect to SFR than the relations derived using the individual components of b. Our results suggest that indeed these three parameters are physically correlated, suggesting a scenario in which the two components of the baryonic mass regulate the star-formation activity at kpc scales.
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