Merging of magnetic islands as an efficient accelerator of electrons

Tanaka, Kentaro G. and Yumura, Tsubasa and Fujimoto, Masaki and Shinohara, Iku and Badman, Sarah V. and Grocott, Adrian (2010) Merging of magnetic islands as an efficient accelerator of electrons. Physics of Plasmas, 17 (10). ISSN 1070-664X

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In a thin elongated current sheet, it is likely that more than one X-line forms and thus multiple magnetic islands are produced. The islands are then subject to merging. By simulating such a case with a two-dimensional full-particle code, we show that a merger forming a large island produces the most energetic electron population in the system. By setting the lateral extent of the simulation box to be as large as ∼ 100 ion inertial lengths, we introduce many (16) small islands in the initial thin current sheet ( ∼ 1 ion inertial length thickness). Merging of these islands proceeds to leave only two islands in the system. Then, strong electron acceleration is seen upon the final merger that produces the single island in the large simulation box. The most energetic electrons in the system are accelerated at the merging line. The merging line acceleration dominates because the reverse-reconnection facilitating the final merger is in such a strongly driven manner that the associated electric field is an order of magnitude larger than those available upon normal reconnection. Combining the results from additional runs enables us to obtain a scaling law, which suggests a non-negligible role played by merging lines in the observed electron acceleration phenomena.

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Journal Article
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Physics of Plasmas
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10 Oct 2013 09:15
Last Modified:
19 Sep 2023 01:10