Fast magnetic reconnection in the plasmoid-dominated regime

· 2010 · astro-ph.SR · arXiv 1008.3330

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abstract

A conceptual model of resistive magnetic reconnection via a stochastic plasmoid chain is proposed. The global reconnection rate is shown to be independent of the Lundquist number. The distribution of fluxes in the plasmoids is shown to be an inverse square law. It is argued that there is a finite probability of emergence of abnormally large plasmoids, which can disrupt the chain (and may be responsible for observable large abrupt events in solar flares and sawtooth crashes). A criterion for the transition from magnetohydrodynamic to collisionless regime is provided.

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Magnetic Prandtl number dependence of plasmoid-mediated reconnection

physics.plasm-ph · 2026-05-18 · unverdicted · novelty 5.0

In the fully plasmoid-mediated regime the reconnection rate becomes nearly independent of the magnetic Prandtl number.

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Magnetic Prandtl number dependence of plasmoid-mediated reconnection physics.plasm-ph · 2026-05-18 · unverdicted · none · ref 14 · internal anchor
In the fully plasmoid-mediated regime the reconnection rate becomes nearly independent of the magnetic Prandtl number.

Fast magnetic reconnection in the plasmoid-dominated regime

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