Circumgalactic Oxygen Absorption and Feedback

Abstract

OVI absorption in quasar spectra caused by intervening circumgalactic atmospheres suggests a downturn in the atmospheric column density in sightlines passing beyond about 100 kpc from central star-forming galaxies. This turnover supports the hypothesis that the oxygen originates in the central galaxies. When converted into oxygen space density using an Abel integral inversion, the OVI columns require greater than ≈ 109 M of oxygen concentrated near 100 kpc. Circumgalactic gas within this radius cools in less than 1 Gyr and radiates 1042.2 erg s-1 overall. The feedback power necessary to maintain such oxygen-rich atmospheres for many Gyrs cannot be easily supplied by galactic supernovae. However, massive central black holes in star-forming galaxies may generate sufficient accretion power and intermittent shock waves at r 100 kpc to balance circumgalactic radiation losses in late-type L galaxies. The relative absence of OVI absorption observed in early-type, passive L galaxies may arise from enhanced AGN feedback from their more massive central black holes.