Star-Formation in Neutral Hydrogen Gas Reservoirs at Cosmic Noon
Abstract
We aim to constrain the average star formation associated with neutral hydrogen gas reservoirs at cosmic noon. Using a unprecedented sample of 1716 high column density Damped Ly-α absorbers (DLAs) from the Sloan Digital Sky Survey with log(N(HI) / cm-2) 21, we generated the average Ly-α emission spectrum associated to DLAs, free from emission from the background quasar. We measured Lyα emission at > 5.8σ level with luminosity 8.95 1.54 × 1040\ erg\ s-1 (corresponding to about 0.02 L at z 2-3) in systems with average log(N(HI)/ cm-2) ≈21.2 and at median redshift of z 2.64. The peak of the Lyα emission is apparently redshifted by 300 km s-1 relative to the absorption redshift, which is seemingly due to suppression of blue Ly-α photons by radiative transfer through expanding gas. We infer that DLAs form stars with an average rate of (0.08 0.01)/fesc\ M\ yr-1, i.e, ≈ (0.54 0.09) M\ yr-1 for a typical escape fraction, fesc =0.15, of Lyman-α emitting galaxies. DLA galaxies follows the star formation main sequence of star-forming galaxies at high redshift, suggesting that the DLA population is dominated by the lower mass end of Lyman-α emitting galaxies.
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