REBELS-IFU: Linking damped Lyman-α absorption to [CII] emission and dust content in the EoR
Abstract
Neutral gas in galaxies during the Epoch of Reionisation regulates star formation, dust growth, and the escape of ionising photons, making it a key ingredient in understanding both galaxy assembly and reionisation. Yet, direct constraints on the HI content of galaxies at z>6 have been scarce. With JWST, Lyα damping wings in galaxy spectra can now provide a direct probe of this neutral component. We analyse JWST/NIRSpec prism spectra of 12 UV-luminous galaxies from the REBELS-IFU program at z~6.5-7.7, deriving HI column densities by modelling Lyα damping wings. Significant damped Lyα absorption is detected in eight galaxies, with NHI1021 cm-2. We use the column densities and sizes derived for these sources to estimate their HI mass and compare with L[CII]-MHI calibrations. The resulting HI masses show a tentative correlation with those inferred from [CII], although the [CII]-based estimates are systematically larger, suggesting that the HI reservoirs may extend beyond the [CII]-emitting gas. We also combine the DLA-based measurements with FIR-derived dust-to-gas ratios, dust attenuation, and gas-phase metallicities. No correlation is found between DLA-based and FIR-based dust-to-gas ratios, but combining the REBELS-IFU sample with literature samples at lower metallicities reveals a strong correlation between AV/NHI and metallicity. These findings suggest that by z7 massive galaxies can already host substantial, enriched reservoirs of neutral gas and dust, consistent with AV/NHI-metallicity trends at lower redshift. At the highest redshifts (z>8), however, we see tentative evidence for systematically lower AV/NHI at fixed metallicity, which may point to pristine gas accretion or more efficient dust destruction/expulsion.
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