Laboratory evidence of magnetic reconnection hampered in obliquely interacting flux tubes

Simon Bolaños; Andrey Sladkov; Roch Smets; Sophia N. Chen; Alain Grisollet; Evgeny Filippov; Jose Luis Henares; Viorel Nastasa; Sergey Pikuz; Raphël Riquier; Maria Safronova; Alexandre Severin; Mikhail Starodubtsev; Julien Fuchs

doi:10.1038/s41467-022-33813-9

Laboratory evidence of magnetic reconnection hampered in obliquely interacting flux tubes

Simon Bolaños
, Andrey Sladkov
, Roch Smets
, Sophia N. Chen
, Alain Grisollet
, Evgeny Filippov
, Jose Luis Henares
, Viorel Nastasa
, Sergey Pikuz
, Raphël Riquier
, Maria Safronova
, Alexandre Severin
, Mikhail Starodubtsev
, Julien Fuchs

Centre national de la recherche scientifique
Sorbonne Université
Institute of Applied Physics of the Russian Academy of Sciences
Horia Hulubei National Institute of Physics and Nuclear Engineering
CEA/UVSQ/CNRS
Joint Institute for High Temperatures of the Russian Academy of Sciences
UMR 5797
Plasma and Radiation Physics (INFLPR)
National Research Nuclear University MEPhI

Research output: Contribution to journal › Article › peer-review

Abstract

Magnetic reconnection can occur when two plasmas, having anti-parallel components of the magnetic field, encounter each other. In the reconnection plane, the anti-parallel component of the field is annihilated and its energy released in the plasma. Here, we investigate through laboratory experiments the reconnection between two flux tubes that are not strictly anti-parallel. Compression of the anti-parallel component of the magnetic field is observed, as well as a decrease of the reconnection efficiency. Concomitantly, we observe delayed plasma heating and enhanced particle acceleration. Three-dimensional hybrid simulations support these observations and highlight the plasma heating inhibition and reconnection efficiency reduction for these obliquely oriented flux tubes.

Original language	English
Article number	6426
Journal	Nature Communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-33813-9
Publication status	Published - 1 Dec 2022

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Bolaños, S., Sladkov, A., Smets, R., Chen, S. N., Grisollet, A., Filippov, E., Henares, J. L., Nastasa, V., Pikuz, S., Riquier, R., Safronova, M., Severin, A., Starodubtsev, M., & Fuchs, J. (2022). Laboratory evidence of magnetic reconnection hampered in obliquely interacting flux tubes. Nature Communications, 13(1), Article 6426. https://doi.org/10.1038/s41467-022-33813-9

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abstract = "Magnetic reconnection can occur when two plasmas, having anti-parallel components of the magnetic field, encounter each other. In the reconnection plane, the anti-parallel component of the field is annihilated and its energy released in the plasma. Here, we investigate through laboratory experiments the reconnection between two flux tubes that are not strictly anti-parallel. Compression of the anti-parallel component of the magnetic field is observed, as well as a decrease of the reconnection efficiency. Concomitantly, we observe delayed plasma heating and enhanced particle acceleration. Three-dimensional hybrid simulations support these observations and highlight the plasma heating inhibition and reconnection efficiency reduction for these obliquely oriented flux tubes.",

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AU - Bolaños, Simon

AU - Sladkov, Andrey

AU - Smets, Roch

AU - Chen, Sophia N.

AU - Grisollet, Alain

AU - Filippov, Evgeny

AU - Henares, Jose Luis

AU - Nastasa, Viorel

AU - Pikuz, Sergey

AU - Riquier, Raphël

AU - Safronova, Maria

AU - Severin, Alexandre

AU - Starodubtsev, Mikhail

AU - Fuchs, Julien

PY - 2022/12/1

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N2 - Magnetic reconnection can occur when two plasmas, having anti-parallel components of the magnetic field, encounter each other. In the reconnection plane, the anti-parallel component of the field is annihilated and its energy released in the plasma. Here, we investigate through laboratory experiments the reconnection between two flux tubes that are not strictly anti-parallel. Compression of the anti-parallel component of the magnetic field is observed, as well as a decrease of the reconnection efficiency. Concomitantly, we observe delayed plasma heating and enhanced particle acceleration. Three-dimensional hybrid simulations support these observations and highlight the plasma heating inhibition and reconnection efficiency reduction for these obliquely oriented flux tubes.

AB - Magnetic reconnection can occur when two plasmas, having anti-parallel components of the magnetic field, encounter each other. In the reconnection plane, the anti-parallel component of the field is annihilated and its energy released in the plasma. Here, we investigate through laboratory experiments the reconnection between two flux tubes that are not strictly anti-parallel. Compression of the anti-parallel component of the magnetic field is observed, as well as a decrease of the reconnection efficiency. Concomitantly, we observe delayed plasma heating and enhanced particle acceleration. Three-dimensional hybrid simulations support these observations and highlight the plasma heating inhibition and reconnection efficiency reduction for these obliquely oriented flux tubes.

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DO - 10.1038/s41467-022-33813-9

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VL - 13

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Laboratory evidence of magnetic reconnection hampered in obliquely interacting flux tubes

Abstract

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