Cross correlation of Lyman-alpha absorbers with gas-rich galaxies
Abstract
The HI Parkes All Sky Survey (HIPASS) galaxy catalogue is cross-correlated with known low redshift, low column density (NHI <1015 cm-2) Lyman-alpha absorbers from the literature. The redshift-space correlation is found to be similar in strength to HIPASS galaxy self-clustering (correlation length s0,ag=6+/-4 and s0,gg=3.1+/-0.5 h-1 Mpc respectively). In real-space the cross-correlation is stronger than the galaxy auto-correlation (correlation length r0,ag=7.2+/-1.4 and r0,gg=3.5+/-0.7 h-1 Mpc respectively) on scales from 1-10 h-1 Mpc, ruling out the mini-halo model for the confinement Lyman-alpha absorbers at the 99 percent confidence level. Provided that the cause of the strong cross-correlation is purely gravitational, the ratio of correlation lengths suggest that absorbers are embedded in dark matter haloes with masses log(M/Msun)=14.2 h-1, similar to those of galaxy groups. The flattening of the cross-correlation at separations less than ~600 h-1 kpc could correspond to the thickness of filaments in which absorbers are embedded. This work provides indirect statistical evidence for the notion that galaxy groups and large-scale filaments, particularly those that comprise gas-rich galaxies, are the dominant environments of low column density Lyman-alpha absorbers at z=0.
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