Probing AGN-ISM Feedback through Extended X-ray Emission in ESO 137-G034

TL;DR

This study analyzes deep X-ray observations of the Compton-thick AGN ESO 137-G034, revealing complex feedback processes involving photo-ionized and shock-heated plasma, and evidence of jet-ISM interactions shaping its circumnuclear environment.

Contribution

It provides a detailed spatially resolved spectral analysis of the AGN's X-ray emission, highlighting the combined effects of radiative and mechanical feedback on the surrounding medium.

Findings

Extended X-ray emission aligns with ionization bicone morphology.

Evidence of shock-heated plasma and thermal emission linked to radio jet termination.

Asymmetries in flux ratios suggest complex feedback mechanisms.

Abstract

We present a detailed analysis of the X-ray emission of the Compton-thick (CT) AGN ESO\,137-G034 based on deep ($\sim230$\,ks) Chandra observations. As in other CT AGNs, the morphology of the emission is elongated, approximately following the [O III] ionization bicone. With spatially resolved spectral modeling, we show that the extended emission within the bi-cone regions { is most readily explained} as from a mixture of photo-ionized gas and shock-heated plasma, reflecting the combined effects of radiative and kinematic AGN feedback. By comparing the morphology of the { X-ray emission in narrow spectral bands and that of the 3\,cm radio jet, we find suggestive evidence of thermal, possibly shocked emission associated with the SE termination of the radio jet. This interpretation is also supported by the lack of [O~III] relative to the $0.3-3.0$ keV flux in the inner $3^{\prime\prime}$ ($\sim600$\,pc) of the SE cone, which would be consistent with an additional thermal X-ray component on top of the photonized emission of an outflowing wind. A similar effect is only seen within the inner $1^{\prime\prime}$ ($200$\,pc) of the NW cone. In the radial profile of the [OIII]/X-ray flux ratio and the X-ray hardness ratio within the inner $\sim3^{\prime\prime}$ ($\sim600$\,pc) of the SE cone we see an asymmetry, with no counterpart in the NW cone. We detect soft extended X-ray emission in the cross-cones which may originate from the interaction of an embedded radio jet with a clumpy interstellar medium (ISM). }These results highlight the { importance of both} radiative and mechanical feedback in shaping the circumnuclear environment of ESO\,137-G034.