Peering down the barrel with DESI DR2: 10 000+ inflows at z < 0.6 reveal how galaxies accrete cold gas

Abstract

Direct observational constraints on how galaxies acquire their gas remain remarkably limited, hindering our understanding of the baryon cycle. We present a search for down-the-barrel NaI D absorption towards 15.6 million galaxies at z < 0.6 in DESI Data Release 2. We use Bayesian evidence ratios to assess whether the absorption requires additional components tracing interstellar gas distinct from the systemic component of the galaxy. We construct a catalogue of 50 088 (27 420) galaxies with moderate (strong) evidence for down-the-barrel absorption. The inferred absorption components are broadly distributed in velocity, with approximately 50% at v flow < -50 km/s, 30% within 50 km/s of the systemic velocity and the remaining 20% at v flow > 50 km/s. We find strong evidence for a large population of low-velocity, infalling absorbers with velocities 20 km/s in edge-on galaxies, consistent with radial inflows predicted in simulations. The stronger correlation in early-type galaxies between inflow velocity and stellar velocity dispersion, compared to that with stellar mass, suggests that a portion of these inflows may be associated with accreting satellites. These results reveal the multiple pathways in which galaxies accrete gas at redshift z < 0.6 for the first time in a statistically significant sample.