Litcius/Paper detail

A Coupled Guiding Center–Boris Particle Pusher for Magnetized Plasmas in Compact-object Magnetospheres

Fabio Bacchini, Bart Ripperda, Alexander A. Philippov, Kyle Parfrey

2020The Astrophysical Journal Supplement Series26 citationsDOIOpen Access PDF

Abstract

Abstract We present a novel numerical scheme for simulating the motion of relativistic charged particles in magnetospheres of compact objects, typically filled with highly magnetized collisionless plasmas. The new algorithm is based on a dynamic switch between the full system of equations of motion and a guiding-center approximation. The switch between the two formulations is based on the magnetization of the plasma particles, such that the dynamics are accurately captured by the guiding-center motion even when the gyrofrequency is underresolved by the time step. For particles with a large gyroradius, due to acceleration in, e.g., reconnecting current sheets, the algorithm adaptively switches to solve the full equations of motion instead. The new scheme is directly compatible with standard particle-in-cell codes, and is readily applicable in curved spacetimes via a dedicated covariant formulation. We test the performance of the coupled algorithm by evolving charged particles in electromagnetic configurations of reconnecting current sheets in magnetized plasma, obtained from special- and general-relativistic particle-in-cell simulations. The new coupled pusher is capable of producing highly accurate particle trajectories even when the time step is many orders of magnitude larger than the gyroperiod, substantially reducing the restrictions of the temporal resolution.

Topics & Concepts

PhysicsPlasmaAccelerationEquations of motionClassical mechanicsCharged particleMagnetic fieldTest particleCovariant transformationCurrent (fluid)Motion (physics)Particle (ecology)Particle accelerationComputational physicsTrajectoryMagnetosphere particle motionRelativistic particleQuantum electrodynamicsMaxwell's equationsParticle-in-cellGyrokineticsMechanicsField (mathematics)Dynamics (music)MagnetizationElectromagnetic fieldScheme (mathematics)Electromagnetic radiationRelativistic plasmaIonosphere and magnetosphere dynamicsLaser-Plasma Interactions and DiagnosticsPulsars and Gravitational Waves Research