Neutral gas density in Damped Lyman Alpha systems
Abstract
We estimate the intrinsic neutral gas density in Damped Lyman Alpha systems (HI(DLA)) in the redshift range 2.2 z 5 from the DLA SDSS DR3 sample of optically selected quasars. We take into account self-consistently the obscuration on background quasars due to the dust present in Damped Lyman Alpha systems. We model the column density and redshift distribution of these systems by using both a non-parametric and a parametric approach. Under conservative assumptions on the dust content of Damped Lyman α systems, we show that selection effects lead to underestimating the intrinsic neutral gas density by at least 15\% with respect to the observed neutral gas density. Over the redshift range [2.2;5.5] we find HI(DLA)=0.97+0.08+0.28-0.06-0.15 · 10-3, where the first set of error bars gives the 1σ random errors and the second set gives the modeling uncertainty dependent on the fraction of metals in dust - from 0\% to 50\%. This value compares with HI(DLA)=0.82+0.05-0.05 (1σ error bars), which is obtained when no correction for dust is introduced. In the model with half of the metals mass in dust we cannot constraint HI(DLA) at a confidence level higher than 90\%. In this case there is indeed a probability of about 10\% that the intrinsic column density distribution of DLA systems is a power law f(NHI) 1/NHI~1.95. In contrast, with 25 \% of the metals in dust - the most realistic estimate - a power law is ruled out at 99.5\% of confidence level.
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