The XMM-Newton Wide Field Survey in the COSMOS Field: Clustering Dependence of X-ray Selected AGN on Host Galaxy Properties

Abstract

We study the spatial clustering through the projected two-point correlation function of 632 (1130) XMM-COSMOS Active Galactic Nuclei (AGNs) with known spectroscopic (spectroscopic or photometric) redshifts in the range z = [0.1 - 2.5] in order to measure the AGN bias and estimate the typical mass of the hosting dark matter (DM) halo as a function of AGN host galaxy properties. We create AGN subsamples in terms of stellar mass M* and specific black hole accretion rate LX/M*, to probe how AGN environment depends on these quantities. For the full spectroscopic AGN sample, we measure a typical DM halo mass of (Mhalo / h-1M)= 12.79-0.43+0.26, similar to galaxy group environments and in line with previous studies for moderate-luminosity X-ray selected AGN. We find no significant dependence on LX/M*, with (Mhalo / h-1M) = 13.06-0.38+0.23 (12.97-1.26+0.39) for the low (high) LX/M* subsample. We also find no difference in the hosting halos in terms of M* with (Mhalo / h-1M) = 12.93-0.62+0.31 (12.90-0.62+0.30) for the low (high) M* subsample. By comparing the M*-Mhalo relation derived for XMM-COSMOS AGN subsamples with what is expected for normal non-active galaxies by abundance matching and clustering results, we find that the typical DM halo mass of our high M* AGN subsample is similar to that of non-active galaxies. However, AGNs in our low M* subsample are found in more massive halos than non-active galaxies. By excluding AGNs in galaxy groups from the clustering analysis, we find evidence that the result for low M* may be due a larger fraction of AGNs as satellites in massive halos.