E-XQR-30: The evolution of MgII, CII and OI across 2<z<6

Abstract

Intervening metal absorbers in quasar spectra at z > 6 can be used as probes to study the chemical enrichment of the Universe during the Epoch of Reionization (EoR). This work presents the comoving line densities (dn/dX) of low ionisation absorbers, namely, Mg II (2796A), C II (1334A) and O I (1302A) across 2 <z < 6 using the E-XQR-30 metal absorber catalog prepared from 42 XSHOOTER quasar spectra at 5.8 < z < 6.6. Here, we analyse 280 Mg II (1.9 < z < 6.4), 22 C II (5.2 < z < 6.4) and 10 O I (5.3 < z < 6.4) intervening absorbers, thereby building up on previous studies with improved sensitivity of 50% completeness at an equivalent width of W > 0.03A. For the first time, we present the comoving line densities of 131 weak (W < 0.3A) intervening Mg II absorbers at 1.9 < z < 6.4 which exhibit constant evolution with redshift similar to medium (0.3 < W < 1.0A) absorbers. However, the cosmic mass density of Mg II - dominated by strong Mg II systems - traces the evolution of global star formation history from redshift 1.9 to 5.5. E-XQR-30 also increases the absorption path length by a factor of 50% for C II and O I whose line densities show a rising trend towards z > 5, in agreement with previous works. In the context of a decline in metal enrichment of the Universe at z > 5, the overall evolution in the incidence rates of absorption systems can be explained by a weak - possibly soft fluctuating - UV background. Our results, thereby, provide evidence for a late reionization continuing to occur in metal-enriched and therefore, biased regions in the Universe.