Simulation Models for Exploring Magnetic Reconnection

Simulation Models for Exploring Magnetic Reconnection

Simulations have played a critical role in the advancement of our knowledge of magnetic reconnection. However, due to the inherently multiscale nature of reconnection, it is impossible to simulate all physics at all scales. For this reason, a wide range of simulation methods have been crafted to stu...

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Veröffentlicht in:arXiv.org 2024-06
Hauptverfasser: Shay, Michael, Adhikari, Subash, Beesho, Naoki, Birn, Joachim, Buechner, Jorg, Cassak, Paul, Li-Jen, Chen, Chen, Yuxi, Cozzani, Giulia, Drake, Jim, Guo, Fan, Hesse, Michael, Jain, Neeraj, Pfau-Kempf, Yann, Lin, Yu, Liu, Yi-Hsin, Oka, Mitsuo, Omelchenko, Yuri A, Palmroth, Minna, Pezzi, Oreste, Reiff, Patricia H, Swisdak, Marc, Toffoletto, Frank, Toth, Gabor, Wolf, Richard A
Format: Artikel
Sprache:eng
Schlagworte:
Magnetohydrodynamics
Simulation models
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Zusammenfassung:Simulations have played a critical role in the advancement of our knowledge of magnetic reconnection. However, due to the inherently multiscale nature of reconnection, it is impossible to simulate all physics at all scales. For this reason, a wide range of simulation methods have been crafted to study particular aspects and consequences of magnetic reconnection. This chapter reviews many of these methods, laying out critical assumptions, numerical techniques, and giving examples of scientific results. Plasma models described include magnetohydrodynamics (MHD), Hall MHD, Hybrid, kinetic particle-in-cell (PIC), kinetic Vlasov, Fluid models with embedded PIC, Fluid models with direct feedback from energetic populations, and the Rice Convection Model (RCM).
ISSN:2331-8422