The case for electron re-acceleration at galaxy cluster shocks

van Weeren, Reinout and Santos, Felipe and Dawson, William and Golovich, Nathan and Brüggen, Marcus and Wittman, David and Jee, M. James and Sobral, David and Stroe, Andra (2017) The case for electron re-acceleration at galaxy cluster shocks. Nature Astronomy, 1 (1): 0005. ISSN 2397-3366

[thumbnail of Nature_Astronomy_1]
Preview
PDF (Nature_Astronomy_1)
Nature_Astronomy_1.pdf - Accepted Version
Available under License Creative Commons Attribution-NonCommercial.

Download (1MB)

Abstract

On the largest scales, the Universe consists of voids and filaments making up the cosmic web. Galaxy clusters are located at the knots in this web, at the intersection of filaments. Clusters grow through accretion from these large-scale filaments and by mergers with other clusters and groups. In a growing number of galaxy clusters, elongated Mpc-size radio sources have been found [1, 2]. Also known as radio relics, these regions of diffuse radio emission are thought to trace relativistic electrons in the intracluster plasma accelerated by low-Mach number shocks generated by cluster-cluster merger events [3]. A long-standing problem is how low-Mach number shocks can accelerate electrons so efficiently to explain the observed radio relics. Here we report the discovery of a direct connection between a radio relic and a radio galaxy in the merging galaxy cluster Abell 3411-3412 by combining radio, X-ray, and optical observations. This discovery indicates that fossil relativistic electrons from active galactic nuclei are re-accelerated at cluster shocks. It also implies that radio galaxies play an important role in governing the non-thermal component of the intracluster medium in merging clusters.

Item Type:
Journal Article
Journal or Publication Title:
Nature Astronomy
Additional Information:
© 2017 Macmillan Publishers Limited. All Rights Reserved.
ID Code:
83266
Deposited By:
Deposited On:
29 Nov 2016 14:16
Refereed?:
Yes
Published?:
Published
Last Modified:
26 Nov 2024 01:44