Wave Phenomena and Beam-Plasma Interactions at the Magnetopause Reconnection Region

J. L. Burch; J. M. Webster; K. J. Genestreti; R. B. Torbert; B. L. Giles; S. A. Fuselier; J. C. Dorelli; A. C. Rager; T. D. Phan; R. C. Allen; L. J. Chen; S. Wang; O. Le Contel; C. T. Russell; R. J. Strangeway; R. E. Ergun; A. N. Jaynes; P. A. Lindqvist; D. B. Graham; F. D. Wilder; K. J. Hwang; J. Goldstein

doi:10.1002/2017JA024789

Wave Phenomena and Beam-Plasma Interactions at the Magnetopause Reconnection Region

J. L. Burch
, J. M. Webster
, K. J. Genestreti
, R. B. Torbert
, B. L. Giles
, S. A. Fuselier
, J. C. Dorelli
, A. C. Rager
, T. D. Phan
, R. C. Allen
, L. J. Chen
, S. Wang
, O. Le Contel
, C. T. Russell
, R. J. Strangeway
, R. E. Ergun
, A. N. Jaynes
, P. A. Lindqvist
, D. B. Graham
, F. D. Wilder

K. J. Hwang, J. Goldstein

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

Abstract

This paper reports on Magnetospheric Multiscale observations of whistler mode chorus and higher-frequency electrostatic waves near and within a reconnection diffusion region on 23 November 2016. The diffusion region is bounded by crescent-shaped electron distributions and associated dissipation just upstream of the X-line and by magnetic field-aligned currents and electric fields leading to dissipation near the electron stagnation point. Measurements were made southward of the X-line as determined by southward directed ion and electron jets. We show that electrostatic wave generation is due to magnetosheath electron beams formed by the electron jets as they interact with a cold background plasma and more energetic population of magnetospheric electrons. On the magnetosphere side of the X-line the electron beams are accompanied by a strong perpendicular electron temperature anisotropy, which is shown to be the source of an observed rising-tone whistler mode chorus event. We show that the apex of the chorus event and the onset of electrostatic waves coincide with the opening of magnetic field lines at the electron stagnation point.

Original language	English
Pages (from-to)	1118-1133
Number of pages	16
Journal	Journal of Geophysical Research: Space Physics
Volume	123
Issue number	2
DOIs	https://doi.org/10.1002/2017JA024789
Publication status	Published - 1 Feb 2018

Keywords

magnetopause
reconnection

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10.1002/2017JA024789

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Burch, J. L., Webster, J. M., Genestreti, K. J., Torbert, R. B., Giles, B. L., Fuselier, S. A., Dorelli, J. C., Rager, A. C., Phan, T. D., Allen, R. C., Chen, L. J., Wang, S., Le Contel, O., Russell, C. T., Strangeway, R. J., Ergun, R. E., Jaynes, A. N., Lindqvist, P. A., Graham, D. B., ... Goldstein, J. (2018). Wave Phenomena and Beam-Plasma Interactions at the Magnetopause Reconnection Region. Journal of Geophysical Research: Space Physics, 123(2), 1118-1133. https://doi.org/10.1002/2017JA024789

@article{ced1246f653148a3a99edc042488598b,

title = "Wave Phenomena and Beam-Plasma Interactions at the Magnetopause Reconnection Region",

abstract = "This paper reports on Magnetospheric Multiscale observations of whistler mode chorus and higher-frequency electrostatic waves near and within a reconnection diffusion region on 23 November 2016. The diffusion region is bounded by crescent-shaped electron distributions and associated dissipation just upstream of the X-line and by magnetic field-aligned currents and electric fields leading to dissipation near the electron stagnation point. Measurements were made southward of the X-line as determined by southward directed ion and electron jets. We show that electrostatic wave generation is due to magnetosheath electron beams formed by the electron jets as they interact with a cold background plasma and more energetic population of magnetospheric electrons. On the magnetosphere side of the X-line the electron beams are accompanied by a strong perpendicular electron temperature anisotropy, which is shown to be the source of an observed rising-tone whistler mode chorus event. We show that the apex of the chorus event and the onset of electrostatic waves coincide with the opening of magnetic field lines at the electron stagnation point.",

keywords = "magnetopause, reconnection",

author = "Burch, \{J. L.\} and Webster, \{J. M.\} and Genestreti, \{K. J.\} and Torbert, \{R. B.\} and Giles, \{B. L.\} and Fuselier, \{S. A.\} and Dorelli, \{J. C.\} and Rager, \{A. C.\} and Phan, \{T. D.\} and Allen, \{R. C.\} and Chen, \{L. J.\} and S. Wang and \{Le Contel\}, O. and Russell, \{C. T.\} and Strangeway, \{R. J.\} and Ergun, \{R. E.\} and Jaynes, \{A. N.\} and Lindqvist, \{P. A.\} and Graham, \{D. B.\} and Wilder, \{F. D.\} and Hwang, \{K. J.\} and J. Goldstein",

note = "Publisher Copyright: {\textcopyright}2018. The Authors.",

year = "2018",

month = feb,

day = "1",

doi = "10.1002/2017JA024789",

language = "English",

volume = "123",

pages = "1118--1133",

journal = "Journal of Geophysical Research: Space Physics",

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Burch, JL, Webster, JM, Genestreti, KJ, Torbert, RB, Giles, BL, Fuselier, SA, Dorelli, JC, Rager, AC, Phan, TD, Allen, RC, Chen, LJ, Wang, S, Le Contel, O, Russell, CT, Strangeway, RJ, Ergun, RE, Jaynes, AN, Lindqvist, PA, Graham, DB, Wilder, FD, Hwang, KJ & Goldstein, J 2018, 'Wave Phenomena and Beam-Plasma Interactions at the Magnetopause Reconnection Region', Journal of Geophysical Research: Space Physics, vol. 123, no. 2, pp. 1118-1133. https://doi.org/10.1002/2017JA024789

TY - JOUR

T1 - Wave Phenomena and Beam-Plasma Interactions at the Magnetopause Reconnection Region

AU - Burch, J. L.

AU - Webster, J. M.

AU - Genestreti, K. J.

AU - Torbert, R. B.

AU - Giles, B. L.

AU - Fuselier, S. A.

AU - Dorelli, J. C.

AU - Rager, A. C.

AU - Phan, T. D.

AU - Allen, R. C.

AU - Chen, L. J.

AU - Wang, S.

AU - Le Contel, O.

AU - Russell, C. T.

AU - Strangeway, R. J.

AU - Ergun, R. E.

AU - Jaynes, A. N.

AU - Lindqvist, P. A.

AU - Graham, D. B.

AU - Wilder, F. D.

AU - Hwang, K. J.

AU - Goldstein, J.

PY - 2018/2/1

Y1 - 2018/2/1

N2 - This paper reports on Magnetospheric Multiscale observations of whistler mode chorus and higher-frequency electrostatic waves near and within a reconnection diffusion region on 23 November 2016. The diffusion region is bounded by crescent-shaped electron distributions and associated dissipation just upstream of the X-line and by magnetic field-aligned currents and electric fields leading to dissipation near the electron stagnation point. Measurements were made southward of the X-line as determined by southward directed ion and electron jets. We show that electrostatic wave generation is due to magnetosheath electron beams formed by the electron jets as they interact with a cold background plasma and more energetic population of magnetospheric electrons. On the magnetosphere side of the X-line the electron beams are accompanied by a strong perpendicular electron temperature anisotropy, which is shown to be the source of an observed rising-tone whistler mode chorus event. We show that the apex of the chorus event and the onset of electrostatic waves coincide with the opening of magnetic field lines at the electron stagnation point.

AB - This paper reports on Magnetospheric Multiscale observations of whistler mode chorus and higher-frequency electrostatic waves near and within a reconnection diffusion region on 23 November 2016. The diffusion region is bounded by crescent-shaped electron distributions and associated dissipation just upstream of the X-line and by magnetic field-aligned currents and electric fields leading to dissipation near the electron stagnation point. Measurements were made southward of the X-line as determined by southward directed ion and electron jets. We show that electrostatic wave generation is due to magnetosheath electron beams formed by the electron jets as they interact with a cold background plasma and more energetic population of magnetospheric electrons. On the magnetosphere side of the X-line the electron beams are accompanied by a strong perpendicular electron temperature anisotropy, which is shown to be the source of an observed rising-tone whistler mode chorus event. We show that the apex of the chorus event and the onset of electrostatic waves coincide with the opening of magnetic field lines at the electron stagnation point.

KW - magnetopause

KW - reconnection

U2 - 10.1002/2017JA024789

DO - 10.1002/2017JA024789

M3 - Article

AN - SCOPUS:85044080104

SN - 2169-9402

VL - 123

SP - 1118

EP - 1133

JO - Journal of Geophysical Research: Space Physics

JF - Journal of Geophysical Research: Space Physics

IS - 2

ER -

Wave Phenomena and Beam-Plasma Interactions at the Magnetopause Reconnection Region

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Keywords

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