Magnetic reconnection: an alternative explanation of radio emission in galaxy clusters

TL;DR

This paper proposes magnetic reconnection as a viable mechanism for particle acceleration in galaxy clusters, explaining observed radio emissions with simulations showing efficient electron energization and matching luminosity and spectral data.

Contribution

It introduces magnetic reconnection, specifically plasmoid instability, as a novel explanation for radio emission in galaxy clusters, supported by PIC simulations and observational consistency.

Findings

Electron spectra follow observed power laws.

Acceleration timescales are shorter than magnetic structure lifetimes.

Predicted radio luminosity matches observations.

Abstract

Observations of galaxy clusters show radio emission extended over almost the system scale, necessitating mechanisms for particle acceleration. Previous models for acceleration such as diffusive shock acceleration and that due to turbulence can fall short in terms of efficiency. In this letter, we propose the possibility of acceleration via magnetic reconnection. In particular, we invoke the plasmoid instability which has been previously applied to understand particle energization in high energy systems. Turbulence in galaxy clusters lead to fluctuation dynamos that are known to generate magnetic fields structures consisting of sharp reversals. These form natural sites of reconnection. We perform Particle-In-Cell (PIC) simulations of the plasmoid instability in collisionless and nonrelativistic plasmas. We show that the resulting electron energy spectra have power law indices that are consistent with that inferred from observations. Our estimates show that the acceleration timescales are much smaller than the lifetime of the reconnecting magnetic structures indicating the feasibility of our model. The synchrotron radio luminosity estimate is about $10^{41}$ ergs/s, agreeing with observations. Finally, we find that the maximum achievable Lorentz factor can go upto $10^5$ indicating that acceleration due magnetic reconnection is a promising avenue for understanding the origin of nonthermal emission in galaxy clusters.