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Hauptverfasser: Varnish, T. W. O., Chen, J., Chowdhry, S., Datta, R., Dowhan, G. V., Horan IV, L. S., Jordan, N. M., Neill, E. R., Shah, A. P., Sporer, B. J., Shapovalov, R., McBride, R. D., Hare, J. D.
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2412.02556
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author Varnish, T. W. O.
Chen, J.
Chowdhry, S.
Datta, R.
Dowhan, G. V.
Horan IV, L. S.
Jordan, N. M.
Neill, E. R.
Shah, A. P.
Sporer, B. J.
Shapovalov, R.
McBride, R. D.
Hare, J. D.
author_facet Varnish, T. W. O.
Chen, J.
Chowdhry, S.
Datta, R.
Dowhan, G. V.
Horan IV, L. S.
Jordan, N. M.
Neill, E. R.
Shah, A. P.
Sporer, B. J.
Shapovalov, R.
McBride, R. D.
Hare, J. D.
contents Magnetic reconnection is a ubiquitous process in plasma physics, driving rapid and energetic events such as coronal mass ejections. Reconnection between magnetic fields with arbitrary shear can be decomposed into an anti-parallel, reconnecting component, and a non-reconnecting guide-field component which is parallel to the reconnecting electric field. This guide field modifies the structure of the reconnection layer and the reconnection rate. We present results from experiments on the MAIZE pulsed-power generator (500 kA peak current, 200 ns rise-time) which use two exploding wire arrays, tilted in opposite directions, to embed a guide field in the plasma flows with a relative strength $b\equiv B_g/B_{rec}=\text{0, 0.4, or 1}$. The reconnection layers in these experiments have widths which are less than the ion skin depth, $d_i=c/ω_{pi}$, indicating the importance of the Hall term, which generates a distinctive quadrupolar magnetic field structure along the separatrices of the reconnection layer. Using laser imaging interferometry, we observe quadrupolar structures in the line-integrated electron density, consistent with the interaction of the embedded guide field with the quadrupolar Hall field. Our measurements extend over much larger length scales ($40 d_i$) at higher $β$ ($\sim 1$) than previous experiments, providing an insight into the global structure of the reconnection layer.
format Preprint
id arxiv_https___arxiv_org_abs_2412_02556
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Quadrupolar Density Structures in Driven Magnetic Reconnection Experiments with a Guide Field
Varnish, T. W. O.
Chen, J.
Chowdhry, S.
Datta, R.
Dowhan, G. V.
Horan IV, L. S.
Jordan, N. M.
Neill, E. R.
Shah, A. P.
Sporer, B. J.
Shapovalov, R.
McBride, R. D.
Hare, J. D.
Plasma Physics
Magnetic reconnection is a ubiquitous process in plasma physics, driving rapid and energetic events such as coronal mass ejections. Reconnection between magnetic fields with arbitrary shear can be decomposed into an anti-parallel, reconnecting component, and a non-reconnecting guide-field component which is parallel to the reconnecting electric field. This guide field modifies the structure of the reconnection layer and the reconnection rate. We present results from experiments on the MAIZE pulsed-power generator (500 kA peak current, 200 ns rise-time) which use two exploding wire arrays, tilted in opposite directions, to embed a guide field in the plasma flows with a relative strength $b\equiv B_g/B_{rec}=\text{0, 0.4, or 1}$. The reconnection layers in these experiments have widths which are less than the ion skin depth, $d_i=c/ω_{pi}$, indicating the importance of the Hall term, which generates a distinctive quadrupolar magnetic field structure along the separatrices of the reconnection layer. Using laser imaging interferometry, we observe quadrupolar structures in the line-integrated electron density, consistent with the interaction of the embedded guide field with the quadrupolar Hall field. Our measurements extend over much larger length scales ($40 d_i$) at higher $β$ ($\sim 1$) than previous experiments, providing an insight into the global structure of the reconnection layer.
title Quadrupolar Density Structures in Driven Magnetic Reconnection Experiments with a Guide Field
topic Plasma Physics
url https://arxiv.org/abs/2412.02556