Context. There is compelling evidence that AGNs are strongly influenced by their environment, from their host galaxies to immense structures such as galaxy clusters. Therefore, studying the AGN population of clusters is essential, as both large-scale structures and AGN play key roles in galaxy evolution, though the interactions between these elements are still not well understood. Aims. The primary objective of this study is to unravel the different factors that may significantly affect the triggering of AGN activity in cluster galaxies, including galaxy merging and interactions with other galaxies, and ram pressure from the hot intracluster medium. Methods. For our purposes, we used 82 X-ray detected AGN found within a 4r500 radius of 164 X-ray detected and spectroscopically confirmed galaxy clusters in the northern 25 deg2 field of the XXL survey, up to a redshift of z ∼ 1. This field is also covered by deep optical observations of the Hyper Suprime-Cam, mounted on the 8 m Subaru Telescope, which allows for a reliable morphological classification of galaxies. We thoroughly investigated the morphology of X-ray AGN host galaxies, using both Statmorph software and visual inspection, in an attempt to discover disturbances as indications of interactions that could lead to AGN triggering. Furthermore, using the X-ray hardness ratio, the optical spectra and the spectral energy distributions of the X-ray sources, we have studied the obscuration and other AGN properties, as well as the star formation rate of the hosts as further indicators of interactions. Results. We found a moderately significant, at the 2σ confidence level, higher fraction of X-ray AGN in galaxy clusters hosted by merging or disturbed galaxies, compared to non-active cluster galaxies or X-ray AGN in the field. This excess is primarily localised in the cluster outskirts (between 1 and 2r500). Also, we discovered a higher number of X-ray-hard (hence, possibly obscured) AGN in clusters than in the field, at the 2σ confidence level, particularly in the outskirts. These findings further support the idea that galaxy mergers and interactions may serve as mechanisms for the triggering and obscuration of AGN activity. Conclusions. The relatively high number of disturbed, merging, and possibly obscured AGN hosts in cluster outskirts suggests that galaxy merging and interactions are key drivers in triggering AGN activity in these outer regions of clusters.
Drigga, E., Koulouridis, E., Pouliasis, E., Toba, Y., Akiyama, M., Ruiz, A., et al. (2025). XXL-HSC: Host properties of X-ray detected AGNs in XXL clusters. ASTRONOMY & ASTROPHYSICS, 697, 1-20 [10.1051/0004-6361/202452965].
XXL-HSC: Host properties of X-ray detected AGNs in XXL clusters
Vignali, C.Membro del Collaboration Group
;
2025
Abstract
Context. There is compelling evidence that AGNs are strongly influenced by their environment, from their host galaxies to immense structures such as galaxy clusters. Therefore, studying the AGN population of clusters is essential, as both large-scale structures and AGN play key roles in galaxy evolution, though the interactions between these elements are still not well understood. Aims. The primary objective of this study is to unravel the different factors that may significantly affect the triggering of AGN activity in cluster galaxies, including galaxy merging and interactions with other galaxies, and ram pressure from the hot intracluster medium. Methods. For our purposes, we used 82 X-ray detected AGN found within a 4r500 radius of 164 X-ray detected and spectroscopically confirmed galaxy clusters in the northern 25 deg2 field of the XXL survey, up to a redshift of z ∼ 1. This field is also covered by deep optical observations of the Hyper Suprime-Cam, mounted on the 8 m Subaru Telescope, which allows for a reliable morphological classification of galaxies. We thoroughly investigated the morphology of X-ray AGN host galaxies, using both Statmorph software and visual inspection, in an attempt to discover disturbances as indications of interactions that could lead to AGN triggering. Furthermore, using the X-ray hardness ratio, the optical spectra and the spectral energy distributions of the X-ray sources, we have studied the obscuration and other AGN properties, as well as the star formation rate of the hosts as further indicators of interactions. Results. We found a moderately significant, at the 2σ confidence level, higher fraction of X-ray AGN in galaxy clusters hosted by merging or disturbed galaxies, compared to non-active cluster galaxies or X-ray AGN in the field. This excess is primarily localised in the cluster outskirts (between 1 and 2r500). Also, we discovered a higher number of X-ray-hard (hence, possibly obscured) AGN in clusters than in the field, at the 2σ confidence level, particularly in the outskirts. These findings further support the idea that galaxy mergers and interactions may serve as mechanisms for the triggering and obscuration of AGN activity. Conclusions. The relatively high number of disturbed, merging, and possibly obscured AGN hosts in cluster outskirts suggests that galaxy merging and interactions are key drivers in triggering AGN activity in these outer regions of clusters.| File | Dimensione | Formato | |
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