Litcius/Paper detail

Laboratory Study of Collisionless Magnetic Reconnection

Hantao Ji, Jongsoo Yoo, W. Fox, M. Yamada, M. R. Argall, J. Egedal, Y.-H. Liu, Richard B. Wilder, S. Eriksson, W. Daughton, Kendra Bergstedt, Sayak Bose, J. L. Burch, R. B. Torbert, Jonathan Ng, Li‐Jen Chen

2023Space Science Reviews32 citationsDOIOpen Access PDF

Abstract

A concise review is given on the past two decades' results from laboratory experiments on collisionless magnetic reconnection in direct relation with space measurements, especially by the Magnetospheric Multiscale (MMS) mission. Highlights include spatial structures of electromagnetic fields in ion and electron diffusion regions as a function of upstream symmetry and guide field strength, energy conversion and partitioning from magnetic field to ions and electrons including particle acceleration, electrostatic and electromagnetic kinetic plasma waves with various wavelengths, and plasmoid-mediated multiscale reconnection. Combined with the progress in theoretical, numerical, and observational studies, the physics foundation of fast reconnection in collisionless plasmas has been largely established, at least within the parameter ranges and spatial scales that were studied. Immediate and long-term future opportunities based on multiscale experiments and space missions supported by exascale computation are discussed, including dissipation by kinetic plasma waves, particle heating and acceleration, and multiscale physics across fluid and kinetic scales.

Topics & Concepts

PhysicsMagnetic reconnectionSpace physicsComputational physicsPlasmoidMagnetic fieldPlasmaElectronParticle accelerationAstrophysical plasmaKinetic energyDissipationGyrokineticsClassical mechanicsAccelerationGeophysicsTokamakQuantum mechanicsIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsGeomagnetism and Paleomagnetism Studies