HI in the proto-cluster environment at z>2: absorbing haloes and the Lyman alpha forest
Abstract
We present VLT-UVES echelle spectra of the Lyman alpha emission and absorption in five radio galaxies at redshifts z=2.55-4.1. Together with data from our pilot study, we have a sample of 7 such systems with radio source sizes ~ 1-90 kpc with which to address the origin of the absorbing gas. Echelle resolution again reveals that some systems with NHI>1E18 cm-2 in lower resolution data in fact consist of several weaker absorbers with NHI<1E15 cm-2. We identify two groups of HI absorbers: strong absorbers with NHI=1E18-1E20 cm-2 and weaker systems with NHI=1E13-1E15 cm-2. There are none at intermediate NHI. The strong absorbers may be a by-product of massive galaxy formation or could instead represent material cooling behind the expanding bow-shock of the radio jet, as simulated by Krause. New observations are required to discriminate between these possibilities. We argue that the weaker absorbers with NHI=1E13-1E15 cm-2 are part of the Lyman alpha forest, as their rate of incidence is within a factor of 2-4 of that in the IGM at large. Such column densities are consistent with models of a multi-phase proto-intracluster medium at z>2.
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