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The core of the massive cluster merger MACS J0417.5-1154 as seen by VLT/MUSE

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arxiv 1811.02505 v2 pith:26KG53CT submitted 2018-10-31 astro-ph.GA

The core of the massive cluster merger MACS J0417.5-1154 as seen by VLT/MUSE

classification astro-ph.GA
keywords j0417macsgalaxyarcsecclusteremphmasspeak
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present a multi-wavelength analysis of the core of the massive galaxy cluster MACS\,J0417.5-1154 ($z = 0.441$; MACS\;J0417). Our analysis takes advantage of VLT/MUSE observations which allow the spectroscopic confirmation of three strongly-lensed systems. One of these, nick-named \emph{The Doughnut}, consists of three complete images of a complex ring galaxy at $z = 0.8718$ and a fourth, partial and radial image close to the Brightest Cluster Galaxy (BCG) only discernible thanks to its strong [OII] line emission. The best-fit mass model (rms of 0.38\arcsec) yields a two-dimensional enclosed mass of $M({\rm R < 200\,kpc}) = (1.77\pm0.03)\times10^{14}\,\msun$ and almost perfect alignment between the peaks of the BCG light and the dark matter of ($0.5\pm0.5$)\arcsec . Our finding that a significant misalignment results when the radial image of \emph{The Doughnut} is omitted serves as an important caveat for studies of BCG-dark matter offsets in galaxy clusters. Using \emph{Chandra} data to map the intra-cluster gas, we observe an offset between the gas and dark-matter peaks of ($1.7\pm0.5$)\arcsec, and excellent alignment of the X-ray peak with the location of optical emission line associated with the BCG. We interpret all observational evidence in the framework of on-going merger activity, noting specifically that the coincidence between the gas peak and the peak of blue light from the BCG may be evidence of dense, cold gas leading to direct star formation. We use the surface area $\sigma_{\mu}$ above a given magnification factor $\mu$ as a metric to estimate the lensing power of MACS\,J0417. We obtain $\sigma(\mu > 3) = 0.22$\,arcmin$^2$ confirming MACS\,J0417 as an efficient gravitational lens. Finally, we discuss the differences between our mass model and Mahler et al. (2018).

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