Constraints on black hole fuelling modes from the clustering of X-ray AGN

We present a clustering analysis of X-ray selected active galactic nuclei (AGN) by compiling X-ray samples from the literature and re-estimating the dark-matter (DM) halo masses of AGN in a uniform manner. We find that moderate-luminosity AGN (L 2-10 keV 1042-1044 erg s−1) in the z 0-1.3 Universe ar...

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Bibliographic Details
Published in:Monthly notices of the Royal Astronomical Society 2013-10, Vol.435 (1), p.679-688
Main Authors: Fanidakis, N., Georgakakis, A., Mountrichas, G., Krumpe, M., Baugh, C. M., Lacey, C. G., Frenk, C. S., Miyaji, T., Benson, A. J.
Format: Article
Language:English
Subjects:
Astronomy
Black holes
Dark energy
Luminosity
Quasars
Star & galaxy formation
X-ray astronomy
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Summary:We present a clustering analysis of X-ray selected active galactic nuclei (AGN) by compiling X-ray samples from the literature and re-estimating the dark-matter (DM) halo masses of AGN in a uniform manner. We find that moderate-luminosity AGN (L 2-10 keV 1042-1044 erg s−1) in the z 0-1.3 Universe are typically found in DM haloes with masses of ∼1013 M. We then compare our findings to the theoretical predictions of the coupled galaxy and black hole formation model galform. We find good agreement when our calculation includes the hot-halo mode of accretion on to the central black hole. This type of accretion, which is additional to the common cold accretion during disc instabilities and galaxy mergers, is tightly coupled to the AGN feedback in the model. The hot-halo mode becomes prominent in DM haloes with masses greater than ∼1012.5 M, where AGN feedback typically operates, giving rise to a distinct class of moderate-luminosity AGN that inhabit rich clusters and superclusters. Cold gas fuelling of the black hole cannot produce the observationally inferred DM halo masses of X-ray AGN. Switching off AGN feedback in the model results in a large population of luminous quasars (L 2-10 keV > 1044 erg s−1) in DM haloes with masses up to ∼1014 M, which is inconsistent with the observed clustering of quasars. The abundance of hot-halo AGN decreases significantly in the z 3-4 universe. At such high redshifts, the cold accretion mode is solely responsible for shaping the environment of moderate-luminosity AGN. Our analysis supports two accretion modes (cold and hot) for the fuelling of supermassive black holes and strongly underlines the importance of AGN feedback in cosmological models both of galaxy formation and black hole growth.
ISSN:0035-8711
1365-2966
DOI:10.1093/mnras/stt1327