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Inertial-Range Reconnection in Magnetohydrodynamic Turbulence and in the Solar Wind

In situ spacecraft data on the solar wind show events identified as magnetic reconnection with outflows and apparent "`$X$-lines" $10^{3-4}$ times ion scales. To understand the role of turbulence at these scales, we make a case study of an inertial-range reconnection event in a magnetohydrodynamic (MHD) simulation. We observe stochastic wandering of field-lines in space, breakdown of standard magnetic flux-freezing due to Richardson dispersion, and a broadened reconnection zone containing many current sheets. The coarse-grain magnetic geometry is like large-scale reconnection in the solar wind, however, with a hyperbolic flux-tube or "$X$-line" extending over integral length-scales.

preprint2015arXivOpen access
Cristian C. LalescuYi-Kang ShiGregory L. EyinkTheodore D. DrivasEthan T. VishniacAlexander Lazarian
physics.space-phphysics.plasm-phphysics.flu-dynastro-ph.SR
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Cristian C. LalescuYi-Kang ShiGregory L. EyinkTheodore D. DrivasEthan T. VishniacAlexander Lazarian

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