A multi-wavelength study of nuclear activity and environment of a low power radio galaxy CTD 86

Abstract

We present an X-ray study of the nuclear and extended emission of a nearby Fanaroff & Riley class I (FR-I) radio galaxy CTD 86 based on the observations. Two different components observed are : diffuse thermal emission from hot gas (kT 0.79, ne 10-3 cm-3, LX 5×1042 erg s-1 extended over 186 kpc), and unresolved nuclear emission exhibiting mild activity. The hot gaseous environment of CTD 86 is similar to that found in groups of galaxies or in bright early-type galaxies. No clear signatures of radio-lobe interaction with the diffuse hot gas is evident in this case. X-ray emission from the nucleus is well constrained by an intrinsically absorbed (NH 5.9×1022 cm-2) power law ( 1.5) with 2-10 luminosity LX 2.1×1042 erg s-1. We have measured the stellar velocity dispersion, σ=1828, for the CTD 86 and estimated a mass MBH 9× 107 M with Lbol/LEdd 4×10-3. The low Lbol/LEdd rate and high LX/L[O III] ratio suggest that the central engine of CTD 86 consists of a truncated accretion disk lacking a strong ionizing UV radiation and an inner hot flow producing the X-ray emission. The truncated disk is likely to be inclined with (i40-50) such that our line of sight passes through the outer regions of a putative torus and thus results in high X-ray absorption. We have also identified two bright X-ray sources, SDSS J142452.11+263715.1 and SDSS J142443.78+263616.2, near CTD 86. SDSS J142452.11+263715.1 is a type 1 active galactic nucleus at z=0.3761 and unabsorbed 0.3-10 X-ray luminosity LX 8 × 1043 erg s-1, while SDSS J142443.78+263616.2 is probably a galaxy with an active nucleus.