Theoretical study of an LAE-CIV absorption pair at z = 5.7

Abstract

We present a theoretical model to predict the properties of an observed z = 5.72 Lyman α emitter galaxy - CIV absorption pair separated by 1384 comoving kpc/h. We use the separation of the pair and an outflow velocity/time travelling argument to demonstrate that the observed galaxy cannot be the source of metals for the CIV absorber. We find a plausible explanation for the metal enrichment in the context of our simulations: a dwarf galaxy with M = 1.87 × 109 M located 119 comoving kpc/h away with a wind velocity of 100 km/s launched at z 7. Such a dwarf (MUV = - 20.5) is fainter than the detection limit of the observed example. In a general analysis of galaxy - CIV absorbers, we find galaxies with -20.5 < MUV < - 18.8 are responsible for the observed metal signatures. In addition, we find no correlation between the mass of the closest galaxy to the absorber and the distance between them, but a weak anti-correlation between the strength of the absorption and the separation of galaxy - absorber pairs.