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Particle Acceleration in Kink-unstable Jets

Jordy Davelaar, Alexander A. Philippov, Omer Bromberg, Chandra B. Singh

2020The Astrophysical Journal Letters45 citationsDOIOpen Access PDF

Abstract

Abstract Magnetized jets in gamma-ray bursts and active galactic nuclei are thought to be efficient accelerators of particles; however, the process responsible for the acceleration is still a matter of active debate. In this work, we study the kink instability in non-rotating force-free jets using first-principle particle-in-cell simulations. We obtain similar overall evolution of the instability as found in magnetohydrodynamics simulations. The instability first generates large-scale current sheets, which at later times break up into small-scale turbulence. Reconnection in these sheets proceeds in the strong guide field regime, which results in a formation of steep power laws in the particle spectra. Later evolution shows heating of the plasma, which is driven by small-amplitude turbulence induced by the kink instability. These two processes energize particles due to a combination of ideal and non-ideal electric fields.

Topics & Concepts

PhysicsInstabilityParticle accelerationMagnetohydrodynamicsAccelerationKink instabilityMagnetic reconnectionMechanicsTurbulenceMagnetic fieldCurrent sheetCurrent (fluid)Ideal (ethics)Particle (ecology)Classical mechanicsElectric fieldField (mathematics)Plasma instabilityJet (fluid)Electric currentActive galactic nucleusAstrophysical jetRelativistic particlePlasmaQuantum electrodynamicsPower (physics)AstrophysicsAstrophysics and Cosmic PhenomenaGamma-ray bursts and supernovaeSolar and Space Plasma Dynamics
Particle Acceleration in Kink-unstable Jets | Litcius