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Effective Resistivity in Relativistic Collisionless Reconnection

S. Selvi, Oliver Porth, Bart Ripperda, Fabio Bacchini, Lorenzo Sironi, Rony Keppens

2023The Astrophysical Journal19 citationsDOIOpen Access PDF

Abstract

Abstract Magnetic reconnection can power spectacular high-energy astrophysical phenomena by producing nonthermal energy distributions in highly magnetized regions around compact objects. By means of two-dimensional fully kinetic particle-in-cell (PIC) simulations, we investigate relativistic collisionless plasmoid-mediated reconnection in magnetically dominated pair plasmas with and without a guide field. In X-points, where diverging flows result in a nondiagonal thermal pressure tensor, a finite residence time for particles gives rise to a localized collisionless effective resistivity. Here, for the first time for relativistic reconnection in a fully developed plasmoid chain, we identify the mechanisms driving the nonideal electric field using a full Ohm law by means of a statistical analysis based on our PIC simulations. We show that the nonideal electric field is predominantly driven by gradients of nongyrotropic thermal pressures. We propose a kinetic physics motivated nonuniform effective resistivity model that is negligible on global scales and becomes significant only locally in X-points. It captures the properties of collisionless reconnection with the aim of mimicking its essentials in nonideal magnetohydrodynamic descriptions. This effective resistivity model provides a viable opportunity to design physically grounded global models for reconnection-powered high-energy emission.

Topics & Concepts

PlasmoidPhysicsMagnetic reconnectionMagnetohydrodynamicsKinetic energyPlasmaElectrical resistivity and conductivityMagnetohydrodynamic driveMagnetic fieldElectric fieldComputational physicsClassical mechanicsQuantum mechanicsLaser-Plasma Interactions and DiagnosticsAstrophysics and Cosmic PhenomenaGamma-ray bursts and supernovae
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