Acceleration of cosmic rays by double shock waves in galaxy clusters: application to radio relics

TL;DR

This paper analytically investigates how double shock waves in galaxy clusters influence cosmic ray acceleration and the resulting electron spectra, providing insights into observed spectral deviations in radio relics.

Contribution

It introduces a model for coupled acceleration at two shocks, revealing how parameters like shock distance and compression ratios affect the electron spectrum shape.

Findings

Spectral deviations depend on shock parameters such as $Q_{1}/Q_{2}$, $ _{1}/ _{2}$, and $L$.

Coupled shocks can cause spectrum slope deviations from a pure power law.

Potential explanation for spectral disturbances observed in radio relics.

Abstract

Context. Radio relics in galaxy clusters are known to be good laboratories for verification of the applicability of the diffusive shock acceleration (DSA) model in its canonical version. The need for such verification stems from the inconsistencies in the shock properties resulting from radio observations compared to X-ray observations. Aims. In this article we aim to explore how the presence of a second shock in the vicinity of a relic modifies the spectrum of accelerated electrons and decipher which of the involved parameters can have a significant impact on their shape. Methods. We analytically studied DSA of cosmic rays in two stationary shocks aiming to investigate the change of the distribution function. The latter eventually leads to spectrum slope deviations visible in different observations and simulations that do not appear to be explained by the case wherein cosmic rays interact with a single shock wave. Results. We obtain a complex distribution function $f(x,p)$ depending on many parameters (distance between two shocks, compression ratios, spatial diffusion coefficients, injection value, etc.). This function reveals modifications that occur because of the coupled acceleration in both shocks. Apparently, deviations in the particle spectrum from the pure power law depend on a few parameters such as $Q_{1}/Q_{2} $, $\kappa_{1}/\kappa_{2} $, $r_{1}/r_{2} $, and $L$. Although we do not verify this idea by taking a particular cluster as an example, we demonstrate a potential cause of spectral disturbances in radio relics. In general terms, our findings appear to correlate with results from the literature when the distance between the shocks is of the order of the width of a radio relic and $\kappa_{1}/\kappa_{2} \propto 3$.