Correlations between O VI Absorbers and Galaxies at Low Redshift

TL;DR

This study uses cosmological simulations to analyze how O VI absorbers correlate with galaxies at low redshift, revealing dependencies on galaxy luminosity and absorber strength, and suggesting smaller galaxies significantly influence intergalactic metal enrichment.

Contribution

First quantitative analysis of galaxy-absorber cross-correlations incorporating detailed metal enrichment and non-equilibrium oxygen calculations.

Findings

Correlation strength depends on galaxy luminosity

Correlation distance increases with galaxy luminosity

Most O VI absorbers are near lower-luminosity galaxies

Abstract

We investigate the relationship between galaxies and metal-line absorption systems in a large-scale cosmological simulation with galaxy formation. Our detailed treatment of metal enrichment and non-equilibrium calculation of oxygen species allow us, for the first time, to carry out quantitative calculations of the cross-correlations between galaxies and O VI absorbers. We find the following: (1) The cross-correlation strength depends weakly on the absorption strength but strongly on the luminosity of the galaxy. (2) The correlation distance increases monotonically with luminosity from ~0.5-1h^-1 Mpc for 0.1L* galaxies to ~3-5h^-1 Mpc for L* galaxies. (3) The correlation distance has a complicated dependence on absorber strength, with a luminosity-dependent peak. (4) Only 15% of O VI absorbers lie near >=Lz* galaxies. The remaining 85%, then, must arise ``near'' lower-luminosity galaxies, though, the positions of those galaxies is not well-correlated with the absorbers. This may point to pollution of intergalactic gas predominantly by smaller galaxies. (5) There is a subtle trend that for >~0.5Lz* galaxies, there is a positive correlation between absorber strength and galaxy luminosity in the sense that stronger absorbers have a slightly higher probability of finding such a large galaxy at a given projection distance. For less luminous galaxies, there seems to be a negative correlation between luminosity and absorber strength.