HI content at cosmic noon -- a millimeter-wavelength perspective

Hugo Messias, Andrea Guerrero, Neil Nagar, Jack Regueiro, Violette Impellizzeri, Gustavo Orellana, Miguel Vioque

Published 2023-12-05Version 1

In other to understand galaxy growth evolution, it is critical to constrain the evolution of its building block: gas. Mostly comprised by Hydrogen in its neutral (HI) and molecular (H$_2$) phases, the latter is the one mostly directly associated to star-formation, while the neutral phase is considered the long-term gas reservoir. In this work, we make use of an empirical relation between dust emission at millimeter wavelengths and total gas mass in the inter-stellar medium (MHI plus MH2) in order to retrieve the HI content in galaxies. We assemble an heterogeneous sample of 335 galaxies at $0.01<z<6.4$ detected in both mm-continuum and carbon monoxide (CO), with special focus on a blindly selected sample to retrieve HI cosmological content when the Universe was ~2-6Gyr old ($1<z<3$). We find no significant evolution with redshift of the $M_{\rm HI}/M_{\rm H_2}$ ratio, which is about 1-3 (depending on the relation used to estimate $M_{\rm HI}$). This also shows that $M_{\rm H_2}$-based gas depletion times are underestimated overall by a factor of 2-4. Compared to local Universe HI mass functions, we find that the number density of galaxies with $M_{\rm HI} > 10^{10.5} {\rm M}_\odot$ significantly decreased since 8-12Gyr ago. The specific sample used for this analysis is associated to 20-50% of the total cosmic HI content as estimated via Damped Lyman-alpha Absorbers. In IR luminous galaxies, HI mass content decreases between $z\sim 2.5$ and $z\sim 1.5$, while H$_2$ seems to increase. We also show source detection expectations for SKA surveys.