FEASTS and MHONGOOSE: HI Column Density Distribution at z=0 for NHI>1017.8\, cm-2
Abstract
We present the first z=0 HI column density distribution function, f(NHI), extending down to (NHI/cm-2)=17.8. This was derived from high-sensitivity 21-cm emission-line imaging at 1 kpc resolution. At high-column-densities (19.8< (NHI/cm-2) <21.3), our results align with earlier z=0 studies but benefit from 100 times greater sensitivity. Comparisons with z3 quasar absorption-line studies reveal that f(NHI) at z=0 is systematically lower by 0.1-0.4 dex for 19.2< (NHI/cm-2) <21. However, the distributions become comparable at 17.8< (NHI/cm-2) <19.2, suggesting weak evolution in this regime. Extrapolating the length incidence (dN/dX) for (NHI/cm-2) >17.5 implies a covering fraction (fcov) of 0.7 within 1-kpc-scale HI-detected pixels at z=0. Notably, for 17.8< (NHI/cm-2) <20, impact parameters at a given NHI are significantly lower than previous z0 absorption-line results and TNG50 simulation predictions. This discrepancy indicates challenges in identifying galaxy counterparts for absorbers and in recovering low-column-density HI within cosmological simulations. Finally, we derive a covering fraction of 0.006 for (NHI/cm-2) >17.8 gas within the virial radius around Milky-Way-like galaxies. These findings provide new constraints on the baryonic flows and gaseous dynamics governing galaxy evolution.
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