On the slow quenching of M* galaxies: heavily-obscured AGNs clarify the picture

Abstract

We investigate the connection between X-ray and radio-loud AGNs and the physical properties of their evolved and massive host galaxies, focussing on the mass-related quenching channel followed by M ( 1010.6 M) galaxies in the rest-frame NUVrK colour diagram at 0.2 < z < 0.5. While our results confirm that (1) radio-loud AGNs are predominantly hosted by already-quenched and very massive (M*>1011M) galaxies, ruling out their feedback as a primary driver of M galaxy quenching, we found that (2) X-ray AGNs affected by heavy obscuration of their soft X-ray emission are mostly hosted by M galaxies that are in the process of quenching. This is consistent with a quenching scenario that involves mergers of (gas-poor) M galaxies after the onset of the quenching process, i.e., a scenario where M galaxy mergers are not the cause but rather an aftermath of the quenching mechanism(s). In that respect, we discuss how our results may support a picture where the slow quenching of M galaxies happens due to halo-halo mergers along cosmic filaments.