The Radial Acceleration Relation in CLASH Galaxy Clusters

The radial acceleration relation (RAR) in galaxies describes a tight empirical scaling law between the total acceleration observed in galaxies and that expected from their baryonic mass , with a characteristic acceleration scale of m s−2. Here, we examine if such a correlation exists in galaxy clust...

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Veröffentlicht in:	The Astrophysical journal 2020-06, Vol.896 (1), p.70
Hauptverfasser:	Tian, Yong, Umetsu, Keiichi, Ko, Chung-Ming, Donahue, Megan, Chiu, I-Non
Format:	Artikel
Sprache:	eng
Schlagworte:	Astrophysics Baryons Cosmology Dark matter Galactic clusters Galaxies Galaxy clusters Gravitational lensing Intracluster medium Scaling laws Stars & galaxies Stellar mass Supernova X-ray astronomy
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creator	Tian, Yong Umetsu, Keiichi Ko, Chung-Ming Donahue, Megan Chiu, I-Non
description	The radial acceleration relation (RAR) in galaxies describes a tight empirical scaling law between the total acceleration observed in galaxies and that expected from their baryonic mass , with a characteristic acceleration scale of m s−2. Here, we examine if such a correlation exists in galaxy clusters using weak-lensing, strong-lensing, and X-ray data sets available for 20 high-mass clusters targeted by the Cluster Lensing And Supernova survey with Hubble (CLASH). By combining our CLASH data with stellar mass estimates for the brightest cluster galaxies (BCGs) and accounting for the stellar baryonic component in clusters, we determine, for the first time, an RAR on BCG-cluster scales. The resulting RAR is well described by a tight power-law relation, , with lognormal intrinsic scatter of . The slope is consistent with the low acceleration limit of the RAR in galaxies, , whereas the intercept implies a much higher acceleration scale of m s−2, indicating that there is no universal RAR that holds on all scales from galaxies to clusters. We find that the observed RAR in CLASH clusters is consistent with predictions from a semianalytical model developed in the standard ΛCDM framework. Our results also predict the presence of a baryonic Faber-Jackson relation ( ) on cluster scales.
doi_str_mv	10.3847/1538-4357/ab8e3d
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subjects	Astrophysics Baryons Cosmology Dark matter Galactic clusters Galaxies Galaxy clusters Gravitational lensing Intracluster medium Scaling laws Stars & galaxies Stellar mass Supernova X-ray astronomy
title	The Radial Acceleration Relation in CLASH Galaxy Clusters
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