http://arxiv.org/abs/1701.00197
We present detailed analysis of a young merging galaxy cluster \mac~ (z=0.43) consisting of two pre-defined substructures whose cores are separated by a projected distance of $\sim$245\,kpc. This study has made use of currently available deep 83\,ksec {\it Chandra} X-ray and {\it Hubble Space Telescope} archival data on this source. We detect excess X-ray emission (EE) at $\sim$870\,kpc from the centre of \mac~. The EE coinciding with a third subcluster (SC3) in the ongoing merger system detected in this study. We found that the radio halo whose peak emission coincide with SC1 of \mac~ cluster is responsible for the observed X-ray decrement. We show that being highly disturbed dynamical state and with very hot ICM temperature ($T \sim 13$\,keV) \mac~is very similar to the well-known `Bullet Cluster’ (1E 0657-56) with similar properties and also hosts a radio halo. We also report a tail shaped unique feature of excess X-ray emission originating from the centre of SC2 and is directed to the north-east side of \mac~. The X-ray spectral analysis of the subclusters revealed that SC1 is cooler than SC2. We also detect two surface brightness edges at $\sim$40$\arcsec$ ($\sim$ 323\,kpc) and $\sim$80$\arcsec$ ($\sim$ 647\,kpc) from the centre of \mac~. The inner edge E1 is a merger driven cold front while outer edge E2 is a shock front.
M. Pandge, J. Bagchi, S. Sonkamble, et. al.
Tue, 3 Jan 17
44/55
Comments: 12 pages, 10 figures, 5 Tables, Submitted after incorporating referee comments
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