Advanced Methods for Analyzing in-Situ Observations of Magnetic Reconnection
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Published:2024-09
Issue:6
Volume:220
Page:
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ISSN:0038-6308
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Container-title:Space Science Reviews
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language:en
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Short-container-title:Space Sci Rev
Author:
Hasegawa H.ORCID, Argall M. R., Aunai N., Bandyopadhyay R., Bessho N., Cohen I. J., Denton R. E., Dorelli J. C., Egedal J., Fuselier S. A., Garnier P., Génot V., Graham D. B.ORCID, Hwang K. J., Khotyaintsev Y. V.ORCID, Korovinskiy D. B., Lavraud B., Lenouvel Q., Li T. C., Liu Y.-H., Michotte de Welle B., Nakamura T. K. M., Payne D. S., Petrinec S. M., Qi Y., Rager A. C., Reiff P. H., Schroeder J. M., Shuster J. R., Sitnov M. I., Stephens G. K., Swisdak M., Tian A. M., Torbert R. B., Trattner K. J., Zenitani S.
Abstract
AbstractThere is ample evidence for magnetic reconnection in the solar system, but it is a nontrivial task to visualize, to determine the proper approaches and frames to study, and in turn to elucidate the physical processes at work in reconnection regions from in-situ measurements of plasma particles and electromagnetic fields. Here an overview is given of a variety of single- and multi-spacecraft data analysis techniques that are key to revealing the context of in-situ observations of magnetic reconnection in space and for detecting and analyzing the diffusion regions where ions and/or electrons are demagnetized. We focus on recent advances in the era of the Magnetospheric Multiscale mission, which has made electron-scale, multi-point measurements of magnetic reconnection in and around Earth’s magnetosphere.
Funder
Japan Society for the Promotion of Science National Aeronautics and Space Administration Austrian Science Fund Austrian FGG project National Science Foundation Austrian Research Fund Contract Uppsala University
Publisher
Springer Science and Business Media LLC
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