A search for HI 21cm absorption in strong MgII absorbers in the redshift desert

Abstract

We report results from a deep search for redshifted HI 21cm absorption in 55 strong MgIIλ2796 absorbers (having W (MgII) > 0.5 ) at intermediate redshifts, 0.58 < z abs < 1.70, with the Green Bank Telescope (GBT) and the Giant Metrewave Radio Telescope (GMRT). Nine detections of HI 21cm absorption were obtained, all at 1.17 < z abs < 1.68, including three systems reported earlier by Gupta et al. (2007). Absorption was not detected at > 3σ significance in 32 other MgII absorbers, with 26 of these providing strong upper limits to the HI 21cm optical depth, τ3σ < 0.013 per 10 km/s. For the latter 26 systems, the spin temperature Ts of the absorber must be > [800 × f] K (where f is the covering factor), if the HI column density is 2 × 1020 cm-2, i.e. if the absorber is a damped Lyman-α system (DLA). Data on the remaining 13 systems of the sample were affected by radio frequency interference and were hence not useful. Excluding "associated" systems (within 3000 km/s of the quasar redshift), the detection rate of HI 21cm absorption in strong MgII absorbers is x 21,MgII ( z = 1.1) = 25+11-8%, at a 3σ optical depth sensitivity of 0.013 per 10 km/s. Comparing the detection rates of HI 21cm and damped Lyman-α absorption in strong MgII absorber samples yields a detection rate of HI 21cm absorption in DLAs of x 21,DLA ( z = 1.1) = (73 27)%, consistent with the detection rate of HI 21cm absorption in low-z DLAs. Since HI 21cm absorption arises in cold neutral gas, this indicates that most gas-rich galaxies contain significant fractions of cold HI by z 1. (abridged)