How does Radiation Reaction Affect Relativistic Magnetized Shocks Emission

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How does Radiation Reaction Affect Relativistic Magnetized Shocks Emission

Authors

Yu Zhang, Yuanpei Yang, Liangliang Ji

Abstract

Relativistic magnetized shocks, through the Synchrotron Maser Instability (SMI) mechanism, represent a promising framework for generating coherent radiations, potentially accounting for the enigmatic Fast Radio Bursts (FRBs)-cosmic radio transients with extreme luminosity. This study investigates how the radiation reaction (RR) effect, induced by high-energy photon emissions during SMI, significantly modifies particle dynamics and emission properties in magnetized shocks. Through comprehensive Particle-In-Cell (PIC) simulations, we demonstrate that RR effects fundamentally alter coherent cyclotron motion at shock fronts, producing distinct observational signatures: spectral broadening, peak frequency upshift, and enhanced radiation intensity. Our findings suggest that RR-mediated magnetized shocks could provide a natural explanation for the bimodal energy distribution observed in repeating FRB 121102 and the positive correlation of luminosity-bandwidth between repeating and one-off FRBs in CHIME/FRB catalog. These results support the magnetized shock as a viable source of FRBs.

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