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Rapid particle acceleration due to recollimation shocks and turbulent magnetic fields in injected jets with helical magnetic fields

Ken‐Ichi Nishikawa, Yosuke Mizuno, José L. Gómez, I. Duţan, J. Niemiec, Oleh Kobzar, Nicholas R. MacDonald, A. Meli, M. Pohl, Kouichi Hirotani

2020Monthly Notices of the Royal Astronomical Society22 citationsDOIOpen Access PDF

Abstract

ABSTRACT One of the key questions in the study of relativistic jets is how magnetic reconnection occurs and whether it can effectively accelerate electrons in the jet. We performed 3D particle-in-cell (PIC) simulations of a relativistic electron–proton jet of relatively large radius that carries a helical magnetic field. We focused our investigation on the interaction between the jet and the ambient plasma and explore how the helical magnetic field affects the excitation of kinetic instabilities such as the Weibel instability (WI), the kinetic Kelvin–Helmholtz instability (kKHI), and the mushroom instability (MI). In our simulations these kinetic instabilities are indeed excited, and particles are accelerated. At the linear stage we observe recollimation shocks near the centre of the jet. As the electron–proton jet evolves into the deep non-linear stage, the helical magnetic field becomes untangled due to reconnection-like phenomena, and electrons are repeatedly accelerated as they encounter magnetic-reconnection events in the turbulent magnetic field.

Topics & Concepts

PhysicsWeibel instabilityMagnetic reconnectionInstabilityElectronMagnetic fieldJet (fluid)Particle accelerationAtomic physicsKinetic energyComputational physicsPlasmaTurbulenceMechanicsClassical mechanicsNuclear physicsQuantum mechanicsAstrophysics and Cosmic PhenomenaGamma-ray bursts and supernovaeSolar and Space Plasma Dynamics
Rapid particle acceleration due to recollimation shocks and turbulent magnetic fields in injected jets with helical magnetic fields | Litcius