A Deep Search For Faint Galaxies Associated With Very Low-redshift C IV Absorbers: III. A Galaxy Sample Complete to 0.01 L* and Evidence for Environmental Effects

Joseph N. Burchett, Todd M. Tripp, Rongmon Bordoloi, Jessica K. Werk, J. Xavier Prochaska, Jason Tumlinson, C. N. A. Willmer, John O'Meara, Neal Katz

Published 2015-12-02Version 1

We employ a blindly selected sample of low-redshift C IV absorption systems identified in spectra from the Hubble Space Telescope (HST) Cosmic Origins Spectrograph (COS), combined with galaxy data from the Sloan Digital Sky Survey (SDSS), to study the metal-enriched circumgalactic medium (CGM) with ~100% completeness for galaxy luminosities L > 0.01 L* at z < 0.015. We find that galaxies are typically found at the C IV absorber redshifts within impact parameters rho < 200 kpc, with the nearest galaxy having L < 0.1 L* for 78% of the absorbers. The ubiquity of faint dwarfs in close proximity to the absorbers suggests that these galaxies affect the enrichment and physical conditions of massive-galaxy halos. However, a fraction of our sample (33%) arise well outside the virial radius of any nearby galaxy brighter than 0.01 L*. The detection rate for C IV absorption within the virial radius is mass dependent and is considerably higher for L >~0.1 L* galaxies (7/8) than for less luminous galaxies (1/10). We also find that the occurrence of C IV absorbers depends strongly on the broader environment: 67% (8/12) of galaxies with rho < 150 kpc in regions of low galaxy density (regions with fewer than ten 0.1 L* galaxies within 1 Mpc) have affiliated C IV absorption while none (0/9) of the galaxies in denser regions show C IV within rho < 150 kpc. The reduced detection rate of C IV in denser environments persists for massive group dark matter halos. In contrast, H I is pervasive in the CGM without regard to mass or environment, although some of these Ly-alpha absorbers could arise in unrelated intergalactic gas.