Molecular Hydrogen in High-redshift Damped Lyman-α Absorbers

Abstract

Simulations predict that circumgalactic hydrogen gas surrounding massive (Mhaloz=1=1012-1013\ M) galaxies at z4 may be predominantly neutral, and could produce damped Lyα absorbers (DLAs) along sight-lines to background quasars Stern2021. A circumgalactic medium (CGM) origin for DLAs naturally explains high redshift HI absorption-selected galaxy detections at physical separations much greater than the likely extents of the galaxy disks Neeleman2017, Neeleman2019. The observed z 4 DLA HI column densities are large and comparable to interstellar (ISM) gas columns at which substantial molecular hydrogen (H2) abundances occur. We therefore investigate the possible molecular content of high-redshift CGM gas, and its potential detectability via (rest-frame) far-ultraviolet (UV) absorption line studies. For this purpose we develop an analytic sub-grid model for HI-to-H2 transitions and incorporate the model with zoom-in FIRE-2 simulations of evolving high-z galaxies. We include dust absorption and scattering computations for the transfer of photodissociating Lyman-Werner (LW) band radiation. We find that the typical extents of detectable H2 sightlines are ≈ 0.1\, R vir, independent of redshift from z=2.5 to 5. We argue that a CGM origin for DLAs naturally explains the low detection rates of H2 in DLA observations, as the low CGM densities and relatively strong far-UV fields lead to molecular fractions much lower than observed in the ISM at comparable HI columns.