A complete census of circumgalactic Mg II at redshift z ≲ 0.5

This paper presents 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 H alpha 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, W-r(2796), depends on halo radius (R-h), 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. At the same time, W-r(2796) exhibits no clear trend for either isolated, quiescent galaxies or non-isolated galaxies. In addition, the covering fraction of Mgii absorbing gas kappa is high with kappa greater than or similar to 60 percent at <40 kpc for isolated galaxies and declines rapidly to kappa approximate to 0 at d greater than or similar to 100 kpc. Within the gaseous radius, the incidence of Mgii gas depends sensitively on both M-star and the specific star formation rate inferred from H alpha. Different from what is known for massive quiescent haloes, the observed velocity dispersion of Mgii absorbing gas around star-forming galaxies is consistent with expectations from virial motion, which constrains individual clump mass to and cool gas accretion rate of . Finally, we find no strong azimuthal dependence of Mgii absorption for either star-forming or quiescent galaxies. Our results demonstrate that multiple parameters affect the properties of gaseous haloes around galaxies and highlight the need of a homogeneous, absorption-blind sample for establishing a holistic description of chemically enriched gas in the circumgalactic space.

Automated summary

The study found that Mgii absorbing gas exhibits distinct behaviors in isolated, star-forming, and non-isolated galaxies, depending on parameters such as halo radius, B-band luminosity, and stellar mass. Additionally, the covering fraction of Mgii absorbing gas was found to be related to the distance, with isolated galaxies showing high covering fraction at closer distances. Furthermore, the study highlighted the sensitivity of Mgii gas incidence to both stellar mass and specific star formation rate within the gaseous radius.