UV background fluctuations traced by metal ions at z≈3

Abstract

Here we investigate how LyC-opaque systems present in the intergalactic medium at z≈3 can distort the spectral shape of a uniform UV background (UVB) through radiative transfer (RT) effects. With this aim in mind, we perform a multi-frequency RT simulation through a cosmic volume of 10h-1~cMpc scale polluted by metals, and self-consistently derive the ions of all the species. The UVB spatial fluctuations are traced by the ratio of He\, II\ and H\, I\ column density, η, and the ratio of C\, IV\ and Si\, IV\ optical depths, ζ. We find that: (i) η spatially fluctuates through over-dense systems () with statistically significant deviations δη >25\% in 18\% of the volume ; (ii) same fluctuations in ζ are also present in 34\% of the enriched domain (only 8\% of the total volume) and derive from a combination of RT induced effects and in-homogeneous metal enrichment, both effective in systems with > 1.5.