Not So Heavy Metals: Black Hole Feedback Enriches The Circumgalactic Medium

Abstract

We examine the effects of SMBH feedback on the CGM using a cosmological hydrodynamic simulation [ Romulus25;][]Tremmel2017 and a set of four zoom-in `genetically modified' Milky Way-mass galaxies sampling different evolutionary paths. By tracing the distribution of metals in the circumgalactic medium (CGM), we show that O6 is a sensitive indicator of supermassive black hole (SMBH) feedback. First, we calculate the column densities of O6 in simulated Milky Way-mass galaxies and compare them with observations from the COS-Halos Survey. Our simulations show column densities of O6 in the CGM consistent with those of COS-Halos star forming and quenched galaxies. These results contrast with those from previous simulation studies which typically underproduce CGM column densities of O6. We determine that a galaxy's star formation history and assembly record have little effect on the amount of O6 in its CGM. Instead, column densities of O6 are closely tied to galaxy halo mass and BH growth history. The set of zoom-in, genetically modified Milky Way-mass galaxies indicates that the SMBH drives highly metal-enriched material out into its host galaxy's halo which in turn elevates the column densities of O6 in the CGM.