Boundary-driven MHD flux-braiding simulations at different Rm reveal Rm-dependent current sheet properties with fragmentation at high Rm consistent with plasmoid instability, supporting braiding for coronal heating.
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Coherent structures that self-consistently emerge in strong MHD turbulence serve as the dominant sites for localized electric-field intensification and repeated particle acceleration across cosmic plasmas.
citing papers explorer
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Distribution of energy release events due to magnetic braiding
Boundary-driven MHD flux-braiding simulations at different Rm reveal Rm-dependent current sheet properties with fragmentation at high Rm consistent with plasmoid instability, supporting braiding for coronal heating.
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Strong MHD Turbulence and Coherent Structures as Drivers of Cosmic Particle Acceleration
Coherent structures that self-consistently emerge in strong MHD turbulence serve as the dominant sites for localized electric-field intensification and repeated particle acceleration across cosmic plasmas.