CHEX-MATE: New detections and properties of the radio diffuse emission in massive clusters with MeerKAT (2507.00133v1)

Abstract: Modern radio telescopes are revolutionising our understanding of non-thermal phenomena within galaxy clusters, collecting large samples of extended sources with unprecedented sensitivity and angular resolution. In this work, we present novel MeerKAT observations for a sample of 21 galaxy clusters being part of the CHEX-MATE project. These systems were selected based on their high mass and displaying signs of dynamical activity. Thanks to the high-quality data in hand, we detect extended radio emission in every target considered. We report two new halos, three new relics and confirm a previous candidate halo and two candidate radio relics. When investigating the scaling relations with the cluster properties, we confirm the presence of a radio halo power-mass correlation and relate it to a higher radio halo emissivity in more massive clusters. For radio relics, we highlight the MeerKAT capabilities to significantly extend the depth of radio observations to a new, unexplored field of low radio power sources ($\lesssim 10^{23} ~ {\rm W~Hz^{-1}} $ at 1.28 GHz). Thanks to such high-sensitivity data, we show that the radio relic power can display a wide range of values for a given cluster mass and relic size. Ultimately, we discuss how current radio observations, in combination with large radio surveys, are becoming capable of testing numerical simulation predictions and being close to perform direct comparison with them, in order to gain new insights on the evolution of radio relics.