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Morphology of radio relics – I. What causes the substructure of synchrotron emission?

Paola Domínguez-Fernández, M. Brüggen, F. Vazza, Wladimir E. Banda-Barragán, K. Rajpurohit, A. Mignone, Dipanjan Mukherjee, Bhargav Vaidya

2020Monthly Notices of the Royal Astronomical Society49 citationsDOIOpen Access PDF

Abstract

ABSTRACT High-resolution radio observations of cluster radio relics often show complex spatial and spectral features. However, it is not clear what these features reveal about the underlying magnetic field properties. We performed three-dimensional magnetohydrodynamical simulations of merger shock waves propagating through a magnetized, turbulent intracluster medium. Our model includes the diffusive shock acceleration (DSA) of cosmic ray electrons, their spatial advection and energy losses at run-time. With this set-up we can investigate the relation between radio substructure and pre-shock plasma conditions in the host cluster. We find that upstream turbulence plays a major role in shaping the properties of radio relics produced downstream. Within the assumption of DSA, we can reproduce the observed discrepancy between the X-ray derived Mach number of shocks, and the Mach number inferred from radio spectra. Our simulated spectral index maps and profiles across the radio relic also suggest that the standard deviation of the upstream magnetic field must be relatively small ($\sigma _B\le 1 \, \mu$G) in order to reproduce observations and therefore radio relics can potentially constrain the distribution of magnetic fields in galaxy clusters outskirts.

Topics & Concepts

PhysicsAstrophysicsSubstructureGalaxy clusterIntracluster mediumShock (circulatory)Spectral indexShock waveMagnetic fieldRadio galaxyAstronomySpectral lineGalaxyThermodynamicsMedicineQuantum mechanicsStructural engineeringEngineeringInternal medicineAstrophysics and Cosmic PhenomenaGalaxies: Formation, Evolution, PhenomenaGamma-ray bursts and supernovae
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