Damped Lyman Alpha Surveys and Statistics - A Review
Abstract
The history and progress of DLA research over the past several decades is reviewed here. Larger datasets and deeper surveys, particularly over the last couple of years, have improved our knowledge of the neutral gas content and distribution in the universe at all observable redshifts, including the present epoch. New results on the statistics of DLAs at z<1.65 from our HST-UV surveys are presented and discussed in the context of recent results at z=0 and at high redshift. We find that OmegaDLA(z>0) remains roughly constant to within the uncertainties; the z=0 value of the neutral gas mass density, Omegag, is a factor of ~2 less than OmegaDLA. The DLA incidence, n(z), undergoes rapid evolution between redshifts 5 and 2, but is consistent with the no-evolution curve in the current concordance cosmology for z ~< 2. We also show that if the local Schmidt law relating surface density of gas and star formation rate (SFR) is valid at the DLA redshifts, then the DLA SFR density is too low for them to provide a significant contribution to the cosmic star formation history (SFH) at z >~ 1. This implies that the DLAs are unlikely to be the same population as the star forming galaxies (i.e., the Lyman break and sub-millimeter galaxies) that dominate the SFH of the high redshift universe. We suggest that this discrepancy and the DLA ``missing metals'' problem could be the result of missing very high column density gas due to its very small absorption cross section. (abridged)
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