Galaxy Structure, Stellar Populations, and Star Formation Quenching at 0.6 z 1.2

Abstract

We use both photometric and spectroscopic data from the Hubble Space Telescope to explore the relationships among 4000 \ break (D4000) strength, colors, stellar masses, and morphology, in a sample of 352 galaxies with log(M*/M) > 9.44 at 0.6 z 1.2. We have identified authentically quiescent galaxies in the UVJ diagram based on their D4000 strengths. This spectroscopic identification is in good agreement with their photometrically-derived specific star formation rates (sSFR). Morphologically, most (that is, 66 out of 68 galaxies, 97 \%) of these newly identified quiescent galaxies have a prominent bulge component. However, not all of the bulge-dominated galaxies are quenched. We found that bulge-dominated galaxies show positive correlations among the D4000 strength, stellar mass, and the S\'ersic index, while late-type disks do not show such strong positive correlations. Also, bulge-dominated galaxies are clearly separated into two main groups in the parameter space of sSFR vs. stellar mass and stellar surface density within the effective radius, e, while late-type disks and irregulars only show high sSFR. This split is directly linked to the `blue cloud' and the `red sequence' populations, and correlates with the associated central compactness indicated by e. While star-forming massive late-type disks and irregulars (with D4000 < 1.5 and log(M*/M) 10.5) span a stellar mass range comparable to bulge-dominated galaxies, most have systematically lower e 109Mkpc-2. This suggests that the presence of a bulge is a necessary but not sufficient requirement for quenching at intermediate redshifts.