Multiphase gas offsets in the atmospheres of central galaxies and their consequences for SMBH activation I. The hot and warm ionized gas phases

Abstract

We investigate the spatial relationships between multi-phase gas components and supermassive black hole (SMBH) activity in a sample of 25 cool core galaxy groups and clusters. Using high angular resolution observations from Chandra, VLT/MUSE, and VLBA, we robustly locate the position, respectively, of the X-ray peak of the intracluster medium (ICM), of the Hα peak of the warm ionized gas, and of the SMBH radio core on parsec scales. We identify spatial offsets between the X-ray peak of the hot gas and the SMBH in 80% of the systems, with an average displacement of SMBHX-ray = 4.8 kpc (dispersion of 3.8 kpc). In contrast, the peak of warm ionized gas traced by Hα exhibits much smaller offsets (SMBHHα = 0.6 kpc; dispersion of 1.4 kpc) and a lower incidence of displacement (15%). Our findings suggest that hot gas sloshing primarily drives the observed spatial offsets, with AGN-driven uplift contributing in some systems.Importantly, systems with Hα - SMBH offsets of ≥1 kpc uniformly lack detectable radio cores on VLBA scales, with upper limits on the 5~GHz power of P5\,GHz ≤ 1021-22 W Hz-1, while those without such offsets exhibit radio powerful AGN with pc-scale radio emission up to P5\,GHz 1024-25 W Hz-1. This correlation indicates that centrally concentrated warm gas is critical for sustaining radio-loud SMBH activity, possibly supporting scenarios of cold-mode accretion. Overall, our results highlight the importance of high-angular-resolution, multi-wavelength observations for understanding the interplay between multiphase gas cooling and AGN fueling in central galaxies.

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