Oral Presentation

Clustering and halo occupation of AGNs using a semi-analytic model of galaxy formation

Author(s): Taira Oogi, Hikari Shirakata, Masahiro Nagashima, Toshihiro Kawaguchi, Takashi Okamoto, Tomoaki Ishiyama, Motohiro Enoki

Presenter: Taira Oogi (Kavli IPMU)

We investigate clustering properties of active galactic nuclei (AGNs) using a new version of our semi-analytic model of galaxy and AGN formation. We focus on whether galaxy major and minor mergers and disc instabilities as triggering mechanisms for X-ray AGNs are able to explain the observationally estimated host dark matter halo or not. Our model can reproduce the AGN luminosity functions at 0 < z < 6.0 by introducing the gas accretion timescale depending on black hole mass and accreted gas mass. The predicted effective halo mass of the X-ray AGNs is ~10^13 Msun/h at z < 1, which is consistent with most of the current observations of AGN clustering. We also compare the predicted two-point correlation function, the halo occupation distribution, and the AGN satellite fraction of X-ray AGNs with observations. Overall, these quantities are in agreement with the observations. In particular, the halo occupation of satellite AGNs is in qualitative agreement with the observations. Our results suggest that the observed clustering properties and the inferred host halo mass of X-ray AGNs can be explained by the AGN model in which AGNs are activated by galaxy major and minor mergers and disc instabilities.