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Large-scale clustering of buried X-ray AGN: trends in AGN obscuration and redshift evolution

Large-scale clustering of buried X-ray AGN: trends in AGN obscuration and redshift evolution
Large-scale clustering of buried X-ray AGN: trends in AGN obscuration and redshift evolution
In order to test active galactic nucleus (AGN) unification and evolutionary models, we measured the AGN clustering properties as a function of AGN obscuration defined in terms of hydrogen column density, NH. In addition to measuring the clustering of unobscured (NH<1022cm−2) and moderately obscured (1022≤NH<1023.5) AGNs, we also targeted highly obscured sources (NH≥1023.5) up to redshifts of z=3. We have compiled one of the largest samples of X-ray-selected AGNs from a total of eight deep XMM/Chandra surveys. We measured the clustering as a function of both AGN obscuration and redshift using the projected two-point correlation function, wp(rp). We modeled the large-scale clustering signal, measured the AGN bias, b(z,NH), and interpreted it in terms of the typical AGN host dark matter halo, Mhalo(z,NH). We find no significant dependence of AGN clustering on obscuration, suggesting similar typical masses of the hosting halos as a function of NH. This result matches expectations of AGN unification models, in which AGN obscuration depends mainly on the viewing angle of the obscuring torus. We measured, for the first time, the clustering of highly obscured AGNs and find that these objects reside in halos with typical mass logMhalo=12.98+0.17−0.22[h−1M⊙] (12.28+0.13−0.19) at low z∼0.7 (high z∼1.8) redshifts. We find that irrespective of obscuration, an increase in AGN bias with redshift is slower than the expectation for a constant halo mass and instead follows the growth rate of halos, known as the passive evolution track. This implies that for those AGNs the clustering is mainly driven by the mass growth rate of the hosting halos and galaxies across cosmic time.
astro-ph.GA, astro-ph.CO
arXiv
Viitanen, Akke
4c59801d-39fe-4b75-89cd-14bf27e5950a
Allevato, Viola
e74ca535-ee08-485b-a961-09c8376668c2
Finoguenov, Alexis
115a1a3d-bc40-4655-b77d-3fa8fb4318d2
Shankar, Francesco
b10c91e4-85cd-4394-a18a-d4f049fd9cdb
Gilli, Roberto
2af81feb-6b8d-4b19-b279-2ce8238708be
Lanzuisi, Giorgio
0d9b611f-af03-4c4c-ab1a-90665cf10684
Vito, Fabio
7602f273-e1c9-485e-94fb-1eae14edb4a1
Viitanen, Akke
4c59801d-39fe-4b75-89cd-14bf27e5950a
Allevato, Viola
e74ca535-ee08-485b-a961-09c8376668c2
Finoguenov, Alexis
115a1a3d-bc40-4655-b77d-3fa8fb4318d2
Shankar, Francesco
b10c91e4-85cd-4394-a18a-d4f049fd9cdb
Gilli, Roberto
2af81feb-6b8d-4b19-b279-2ce8238708be
Lanzuisi, Giorgio
0d9b611f-af03-4c4c-ab1a-90665cf10684
Vito, Fabio
7602f273-e1c9-485e-94fb-1eae14edb4a1

[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

In order to test active galactic nucleus (AGN) unification and evolutionary models, we measured the AGN clustering properties as a function of AGN obscuration defined in terms of hydrogen column density, NH. In addition to measuring the clustering of unobscured (NH<1022cm−2) and moderately obscured (1022≤NH<1023.5) AGNs, we also targeted highly obscured sources (NH≥1023.5) up to redshifts of z=3. We have compiled one of the largest samples of X-ray-selected AGNs from a total of eight deep XMM/Chandra surveys. We measured the clustering as a function of both AGN obscuration and redshift using the projected two-point correlation function, wp(rp). We modeled the large-scale clustering signal, measured the AGN bias, b(z,NH), and interpreted it in terms of the typical AGN host dark matter halo, Mhalo(z,NH). We find no significant dependence of AGN clustering on obscuration, suggesting similar typical masses of the hosting halos as a function of NH. This result matches expectations of AGN unification models, in which AGN obscuration depends mainly on the viewing angle of the obscuring torus. We measured, for the first time, the clustering of highly obscured AGNs and find that these objects reside in halos with typical mass logMhalo=12.98+0.17−0.22[h−1M⊙] (12.28+0.13−0.19) at low z∼0.7 (high z∼1.8) redshifts. We find that irrespective of obscuration, an increase in AGN bias with redshift is slower than the expectation for a constant halo mass and instead follows the growth rate of halos, known as the passive evolution track. This implies that for those AGNs the clustering is mainly driven by the mass growth rate of the hosting halos and galaxies across cosmic time.

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2304.13745v1 - Author's Original
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Submitted date: 26 April 2023
Additional Information: Accepted for publication in Astronomy & Astrophysics
Keywords: astro-ph.GA, astro-ph.CO

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Local EPrints ID: 478282
URI: http://eprints.soton.ac.uk/id/eprint/478282
PURE UUID: dcebb449-73d4-402f-a15a-14beacbeda28

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Date deposited: 27 Jun 2023 17:08
Last modified: 17 Mar 2024 02:17

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Contributors

Author: Akke Viitanen
Author: Viola Allevato
Author: Alexis Finoguenov
Author: Roberto Gilli
Author: Giorgio Lanzuisi
Author: Fabio Vito

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