The Main Sequence at z 1.3 contains a sizable fraction of galaxies with compact star formation sizes: a new population of early post-starbursts?

Abstract

ALMA measurements for 93 Herschel-selected galaxies at 1.1 ≤slant z ≤slant 1.7 in COSMOS reveal a sizable (>29\%) population with compact star formation (SF) sizes, lying on average > × 3.6 below the optical stellar mass (M)-size relation of disks. This sample widely spans the star-forming Main Sequence (MS), having 108 ≤slant M ≤slant 1011.5 \ M and 20 ≤slant SFR ≤slant 680 \ M yr-1. The 32 size measurements and 61 upper limits are measured on ALMA images that combine observations of CO(5-4), CO(4-3), CO(2-1) and λ obs 1.1-1.3 \ mm continuum, all tracing the star-forming molecular gas. These compact galaxies have instead normally extended Kband sizes, suggesting strong specific SFR gradients. Compact galaxies comprise the 5018 \% of MS galaxies at M > 1011 M. This is not expected in standard bi-modal scenarios where MS galaxies are mostly steadily-growing extended disks. We suggest that compact MS objects are early post-starburst galaxies in which the merger-driven boost of SF has subsided. They retain their compact SF size until either further gas accretion restores pre-merger galaxy-wide SF, or until becoming quenched. The fraction of merger-affected SF inside the MS seems thus larger than anticipated and might reach 50\% at the highest M. The presence of large galaxies above the MS demonstrates an overall poor correlation between galaxy SF size and specific SFR.