The Hα concentration of local star-forming galaxies: implications for galaxy structure formation

Abstract

In this work, we present a study on the Hα emission line flux concentration of 3098 low-redshift star-forming galaxies (SFGs) using the MaNGA data available in the Data Release 17 from the Sloan Digital Sky Survey. We define the Hα flux concentration index (C Hα) as C Hα=F Hα,0.8~Re/F Hα,1.5~Re, where F Hα,0.8~Re and F Hα,1.5~Re are the cumulative Hα flux inside 0.8 and 1.5 r-band effective radius, respectively. We find that C Hα is strongly correlated with the luminosity weighted stellar age gradient. C Hα is also sensitive to environmental effects, in the sense that low-mass satellite galaxies below the star formation main sequence tend to have higher C Hα. For central galaxies, we find that massive disk galaxies with enhanced star formation rate tend to have higher C Hα, while such a phenomenon is not seen in the low-mass regime. We interpret this as evidence that compaction events more frequently occur in the high-mass regime, which eventually resulting in the buildup of prominent bulges in massive SFGs. Implications of these findings on galaxy structure formation are discussed.