A Complete Census of Circumgalactic MgII at Redshift z<~ 0.5

Abstract

We present a survey of MgII absorbing gas in the vicinity of 380 random galaxies, using 156 background quasi-stellar objects(QSOs) as absorption-line probes. The sample comprises 211 isolated (73 quiescent and 138 star-forming galaxies) and 43 non-isolated galaxies with sensitive constraints for both MgII absorption and Ha emission. The projected distances span a range from d=9 to 497 kpc, redshifts of the galaxies range from z=0.10 to 0.48, and rest-frame absolute B-band magnitudes range from M B=-16.7 to -22.8. Our analysis shows that the rest-frame equivalent width of MgII, Wr(2796), depends on halo radius(Rh), B-band luminosity(L B) and stellar mass (M star) of the host galaxies, and declines steeply with increasing d for isolated, star-forming galaxies. Wr(2796) exhibits no clear trend for either isolated, quiescent galaxies or non-isolated galaxies. The covering fraction of MgII absorbing gas is high with 60% at <40 kpc for isolated galaxies and declines rapidly to ≈ 0 at d100 kpc. Within the gaseous radius, depends sensitively on both M star and the specific star formation rate inferred from Ha. Different from massive quiescent halos, the observed velocity dispersion of MgII gas around star-forming galaxies is consistent with expectations from virial motion, which constrains individual clump mass to m cl 105 \, M and cool gas accretion rate of 0.7-2 \,M\, yr-1. We find no strong azimuthal dependence of MgII absorption for either star-forming or quiescent galaxies. Our results highlight the need of a homogeneous, absorption-blind sample for establishing a holistic description of chemically-enriched gas in the circumgalactic space.