The depletion of star-forming gas by AGN activity in radio sources

S J Curran

Published 2024-01-01Version 1

Cold, neutral interstellar gas, the reservoir for star formation, is traced through the absorption of the 21-centimetre continuum radiation by neutral hydrogen (HI). Although detected in one hundred cases in the host galaxies of distant radio sources, only recently have column densities approaching the maximum value observed in Lyman-alpha absorption systems been found. Here we explore the implications these have for the hypothesis that the detection rate of HI absorption is dominated by photo-ionisation from the active galactic nucleus (AGN). We find, with the addition all of the current searches for HI absorption at z > 0.1, a strong correlation between the HI absorption strength and the ionising photon rate, with the maximum value at which HI is detected remaining close to the theoretical value in which all of the neutral gas would be ionised in a large spiral galaxy (Q = 2.9e56 ionising photons/s). We also rule out other effects (excitation by the radio continuum and changing gas properties) as the dominant cause for the decrease in the detection rate with redshift. Furthermore, from the maximum theoretical column density we find that the five high column density systems have spin temperatures close to those of the Milky Way (T < 300 K), whereas, from our model of a gaseous galactic disk, the HI detection at Q= 2.9e56 per s yields T~10 000 K, consistent with the gas being highly ionised.