Chandra View of the LINER-type Nucleus in the Radio-Loud Galaxy CGCG 292-057: Ionized Iron Line and Jet-ISM Interactions

Abstract

We present an analysis of the new, deep (94\,ksec) Chandra ACIS-S observation of radio-loud active galaxy CGCG\,292-057, characterized by a LINER-type nucleus and a complex radio structure that indicates intermittent jet activity. On the scale of the host galaxy bulge, we detected excess X-ray emission with a spectrum best fit by a thermal plasma model with a temperature of 0.8\,keV. We argue that this excess emission results from compression and heating of the hot diffuse fraction of the interstellar medium displaced by the expanding inner, 20\, kpc-scale lobes observed in this restarted radio galaxy. The nuclear X-ray spectrum of the target clearly displays an ionized iron line at 6.7\,keV, and is best fitted with a phenomenological model consisting of a power-law (photon index 1.8) continuum absorbed by a relatively large amount of cold matter (hydrogen column density 0.7 × 1023\,cm-2), and partly scattered (fraction 3\%) by ionized gas, giving rise to a soft excess component and Kα line from iron ions. We demonstrate that the observed X-ray spectrum, particularly the equivalent width of Fe\,XXV Kα (of order 0.3\,keV) can in principle, be explained in a scenario involving a Compton-thin gas located at the scale of the broad-lined region in this source and photoionized by nuclear illumination. We compare the general spectral properties of the CGCG\,292-057 nucleus, with those of other nearby LINERs studied in X-rays.