Coherent Electromagnetic Emission from Relativistic Magnetized Shocks

Abstract

Relativistic magnetized shocks are a natural source of coherent emission, offering a plausible radiative mechanism for Fast Radio Bursts (FRBs). We present first-principles 3D simulations that provide essential information for the FRB models based on shocks: the emission efficiency, spectrum, and polarization. The simulated shock propagates in an e plasma with magnetization σ>1. The measured fraction of shock energy converted to coherent radiation is 10-3 \, σ-1, and the energy-carrying wavenumber of the wave spectrum is 4 \,ω c/c, where ω c is the upstream gyrofrequency. The ratio of the O-mode and X-mode energy fluxes emitted by the shock is 0.4\,σ-1. The dominance of the X-mode at σ 1 is particularly strong, approaching 100% in the spectral band around 2\,ω c. We also provide a detailed description of the emission mechanism for both X- and O-modes.