Metals in Star-Forming Galaxies with KCWI. I. Methodology and First Results on the Abundances of Iron, Magnesium, and Oxygen
Abstract
Understanding the chemical enrichment of different elements is crucial to gaining a complete picture of galaxy chemical evolution. In this study, we present a new sample of 46 low-redshift, low-mass star-forming galaxies at M* 108-10M along with two quiescent galaxies at M* 108.8M observed with the Keck Cosmic Web Imager (KCWI), aiming to investigate the chemical evolution of galaxies in the transition zone between Local Group satellites and massive field galaxies. We develop a novel method to simultaneously determine stellar abundances of iron and magnesium in star-forming galaxies. With the gas-phase oxygen abundance (O/H) g measured using the strong line method, we are able to make the first-ever apples-to-apples comparison of α elements in the stars and the ISM. We find that the [Mg/H]*-[O/H] g relation is much tighter than the [Fe/H]*-[O/H] g relation, which can be explained by the similar production processes of α elements. Most galaxies in our sample exhibit higher [O/H] g than [Fe/H]* and [Mg/H]*. In addition, we construct mass-metallicity relations (MZRs) measured as three different elements (Fe*, Mg*, O g). Compared to the gas O-MZR, the stellar Fe- and Mg-MZRs show larger scatter driven by variations in specific star formation rates (sSFR), with star-forming galaxies exhibiting higher sSFR and lower stellar abundances at fixed mass. The excess of [O/H] g compared to stellar abundances as well as the anti-correlation between sSFR and stellar abundance suggests that galaxy quenching of intermediate-mass galaxies at M* 108-10M is primarily driven by starvation.
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