The COS CGM Compendium V: The Dichotomy of OVI Associated with Low- and High-Metallicity Cool Gas at z < 1

Abstract

We analyze the \ content and kinematics for 126 -selected absorbers at 0.14 z 0.73 for which the metallicities of their cool photoionized phase have been determined. We separate the absorbers into 100 strong forest systems (SLFSs with 15 \,\,< 16.2) and 26 partial Lyman Limit systems (pLLSs with 16.2\,\, 17.2). The sample is drawn from the COS CGM Compendium (CCC) and has \ coverage in ≥ 8 HST/COS G130M/G160M QSO spectra, yielding a 2σ completeness level of \,≥ 13.6. The \ detection rates differ substantially between low-metallicity (LM; ≤ -1.4) and high-metallicity (HM; > -1.4) SLFSs, with 20\% and 60\% detection rates, respectively. The \ detection frequency for the HM and LM pLLSs is, however, similar at 60\%. The SLFSs and pLLSs without detected \ are consistent with the absorbing gas being in a single phase, while those with \ trace multiphase gas. We show that the \ velocity widths and column densities have different distributions in LM and HM gas. We find a strong correlation between \ column density and metallicity. The strongest (\, 14) and broadest absorbers are nearly always associated with HM absorbers, while weaker \ absorbers are found in both LM and HM absorbers. From comparisons with galaxy-selected and blind \ surveys, we conclude absorbers with \, 14 most likely arise in the circumgalactic medium (CGM) of star-forming galaxies. Absorbers with weak \ likely trace the extended CGM or intergalactic medium (IGM), while those without \ likely originate in the IGM.