A detailed study of X-ray cavities in the intracluster environment of the cool core cluster Abell 3017

Abstract

We present a detailed analysis of a cool-core galaxy cluster Abell 3017, at a redshift of z=0.219, which has been identified to be merging with its companion cluster Abell 3016. This study has made use of X-ray Chandra, UV (GALEX), optical (ESO/VLT), mid-infrared (WISE), and radio uGMRT observations of this cluster. Using various image processing techniques, such as unsharp masking, 2-d fits using Beta models, contour binning and the use of surface brightness profiles, we show the existence of a pair of X-ray cavities, at a projected distance of 20'' (70 kpc) and 16'' (57 kpc), respectively from the core of Abell~3017. We also detect an excess of X-ray emission located at 25'' (88 kpc) south of the centre of Abell 3017, is likely due to the bulk motions in the ICM either by gas sloshing or ram-pressure striping due to a merger. We find that the radio lobes are responsible for the observed X-ray cavities detected in this system. The lower values of the mid-IR WISE colour [W1-W2] and [W2-W3] imply that the central BCG of Abell~3017 is a star-forming galaxy. The current star formation rate of the central BCG, estimated from the Hα and GALEX FUV luminosities, are equal to be 5.06 0.78 Msun yr-1 and 9.20 0.81 Msun yr-1, respectively. We detect, for the first time, a radio phoenix 150 kpc away from the radio core, with a spectral index of (α \!≤\! -1.8). We also report the detection of ~Paα emission in this cluster using ESO VLT SINFONI imaging data.