A Chandra view of SPT-CL J0217-5014: a massive galaxy cluster at a cosmic intersection at z=0.53
Abstract
Galaxy clusters trace the densest regions of the cosmic web and are crucial laboratories for studying the thermodynamic and chemical evolution of the intracluster medium (ICM). We present a Chandra study of the massive galaxy cluster SPT-CL J0217-5014 (z 0.53; M 500 3 × 1014~ M), previously reported as a Swift serendipitous clusters with the highest Fe abundance ( 1.3 0.4 Z within 1'.7) and a potentially disturbed morphology. The X-ray morphology reveals a disturbed ICM with a surface brightness edge at 0'.26 ( 100 kpc) to the west and a tail-like feature extending towards the east. The best-fit metal abundance within 1'.5 ( 0.7 R500) is 0.61-0.23+0.26~ Z. The derived central electron number density, entropy, and cooling time classify this system as a non-cool-core cluster, suggesting that merger activity has likely disrupted the possible pre-existing cool core. At larger radii ( 1' - 2'), we detect excess X-ray emission to the south, spatially aligned with a filamentary distribution of red galaxies, indicating ongoing accretion along an intracluster filament. Based on the DESI DR9 cross-matched optical clusters and photometric redshifts, we identify three nearby, lower-mass clusters that likely trace the large-scale structures, suggesting that SPT-CL~J0217-5014 is the primary node of a dynamically active environment where past mergers and anisotropic accretion along cosmic filaments have shaped the present-day ICM.
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