Incidence of HI 21-cm absorption in strong FeII systems at 0.5<z<1.5

Abstract

We present the results from our search for HI 21-cm absorption in a sample of 16 strong FeII systems (W r(MgII λ2796) 1.0 \ and W r(FeII λ2600) or W FeII 1 ) at 0.5<z<1.5 using the Giant Metrewave Radio Telescope and the Green Bank Telescope. We report six new HI 21-cm absorption detections from our sample, which have increased the known number of detections in strong MgII systems at this redshift range by 50%. Combining our measurements with those in the literature, we find that the detection rate of HI 21-cm absorption increases with W FeII, being four times higher in systems with W FeII 1 \ compared to systems with W FeII <1 . The N(HI) associated with the HI 21-cm absorbers would be 2 × 1020 cm-2, assuming a spin temperature of 500 K (based on HI 21-cm absorption measurements of damped Lyman-α systems at this redshift range) and unit covering factor. We find that HI 21-cm absorption arises on an average in systems with stronger metal absorption. We also find that quasars with HI 21-cm absorption detected towards them have systematically higher E(B-V) values than those which do not. Further, by comparing the velocity widths of HI 21-cm absorption lines detected in absorption- and galaxy-selected samples, we find that they show an increasing trend (significant at 3.8σ) with redshift at z<3.5, which could imply that the absorption originates from more massive galaxy haloes at high-z. Increasing the number of HI 21-cm absorption detections at these redshifts is important to confirm various trends noted here with higher statistical significance.