A deep search for 21cm absorption in high redshift damped Lyman-α systems
Abstract
We present deep GMRT 21cm absorption spectra of 10 damped Lyman-α systems (DLAs), of which 8 are at redshifts z 1.3. HI absorption was detected in only one DLA, the z = 0.5318 absorber toward PKS 1629+12, which has been identified with a luminous spiral galaxy; the spin temperature limit (Ts 310 K) derived from our observations continues the trend of DLAs associated with bright spirals having low spin temperatures. In 7 of the remaining 9 systems, the observations place strong lower limits on the spin temperature of the HI gas. The sample of DLAs searched for 21cm absorption now consists of 31 systems, with Ts estimates available in 24 cases; of these, 16 are at z < 2 and 8 at z > 2, with 11 (all at z < 1) having optical IDs. For the latter 11 systems, we find that all low Ts DLAs have been identified with luminous galaxies, while all high Ts (Ts 1000 K) DLAs have been identified with either LSBs or dwarfs. DLA spin temperatures thus appear to correlate with galaxy type, with no correlation seen between Ts and impact parameter. The trend that low z DLAs exhibit both high and low Ts values while high redshift (z 3) DLAs only show high spin temperatures is present in this expanded data set. Based on this difference in spin temperatures, the Gehan test rules out the hypothesis that DLAs at z > 2 and DLAs at z < 2 are drawn from the same parent population at ~ 99 % confidence level. Finally, we estimate upper limits on the fraction of cold HI, fCNM, in the z 3 DLAs. In local spirals, fCNM 0.5; in contrast, we find that fCNM < 0.3 in all 7 high z DLAs, with fCNM < 0.1 in 5 of the 7 cases. (abridged)
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