Clustering of Lyman-alpha Emitters Around Quasars at z4

Abstract

The strong observed clustering of z>3.5 quasars indicates they are hosted by massive (Mhalo1012\,h-1\,M) dark matter halos. Assuming quasars and galaxies trace the same large-scale structures, this should also manifest as strong clustering of galaxies around quasars. Previous work on high-redshift quasar environments, mostly focused at z>5, have failed to find convincing evidence for these overdensities. Here we conduct a survey for Lyman alpha emitters (LAEs) in the environs of 17 quasars at z4 probing scales of R7\,h-1\,Mpc. We measure an average LAE overdensity around quasars of 1.4 for our full sample, which we quantify by fitting the quasar-LAE cross-correlation function. We find consistency with a power-law shape with correlation length of rQG0=2.78+1.16-1.05\,h-1\,cMpc for a fixed slope of γ=1.8. We also measure the LAE auto-correlation length and find rGG0=9.12+1.32-1.31\,h-1\,cMpc (γ=1.8), which is 3.3 times higher than the value measured in blank fields. Taken together our results clearly indicate that LAEs are significantly clustered around z4 quasars. We compare the observed clustering with the expectation from a deterministic bias model, whereby LAEs and quasars probe the same underlying dark matter overdensities, and find that our measurements fall short of the predicted overdensities by a factor of 2.1. We discuss possible explanations for this discrepancy including large-scale quenching or the presence of excess dust in galaxies near quasars. Finally, the large cosmic variance from field-to-field observed in our sample (10/17 fields are actually underdense) cautions one from over-interpreting studies of z6 quasar environments based on a single or handful of quasar fields.