The linear bias of radio galaxies at z~0.3 via cosmic microwave background lensing

Abstract

We present a new measurement of the linear bias of radio loud active galactic nuclei (RLAGN) at z≈0.3 and L 1.4GHz>1023\, W\,Hz-1 selected from the Best & Heckman (2012) sample, made by cross-correlating the RLAGN surface density with a map of the convergence of the weak lensing field of the cosmic microwave background from Planck. We detect the cross-power signal at a significance of 3σ and use the amplitude of the cross-power spectrum to estimate the linear bias of RLAGN, b=2.5 0.8, corresponding to a typical dark matter halo mass of 10(M h /h-1 M)=14.0+0.3-0.5. When RLAGN associated with optically-selected clusters are removed we measure a lower bias corresponding to 10(M h /h-1 M)=13.7+0.4-1.0. These observations support the view that powerful RLAGN typically inhabit rich group and cluster environments.