http://arxiv.org/abs/1905.00025
We examine the massive colliding cluster El Gordo, one of the most massive clusters at high redshift and with previous mass estimates close to (or even exceeding) the maximum mass allowed by standard cosmological models. We use a free-form lensing reconstruction method that avoids making assumptions about the mass distribution. We use data from the RELICS program and identify new multiply lensed system candidates. The new set of constraints provides a more precise mass estimate of this colliding cluster. By fitting a projected NFW mass distribution to the strong-lensing regime, we infer a total mass for the cluster of $M_{200c}=(1.35 \pm 0.15)\times10^{15}$M$_{\odot}$, that is lower than earlier estimates and eases the claimed tension with LCDM models. We also find in our lens map a mass overdensity corresponding to the large cometary tail of hot gas, reinforcing its interpretation as a large tidal feature predicted by our hydrodynamical simulations. Finally, we discuss the observed relation between the plasma and the mass map, finding that the peak in the projected mass map may be associated with a large concentration of colder gas, exhibiting possible star formation. El Gordo is one of the first clusters that will be observed with JWST, which is expected to unveil new high redshift lensed galaxies around this interesting cluster, thus allowing us to improve on its mass estimation.
J. Diego, S. Molnar, C. Cerny, et. al.
Thu, 2 May 19
6/45
Comments: 14 pages
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