Observations of Whistler Waves Correlated with Electron-scale Coherent Structures in the Magnetosheath Turbulent Plasma

S. Y. Huang; F. Sahraoui; Z. G. Yuan; O. Le Contel; H. Breuillard; J. S. He; J. S. Zhao; H. S. Fu; M. Zhou; X. H. Deng; X. Y. Wang; J. W. Du; X. D. Yu; D. D. Wang; C. J. Pollock; R. B. Torbert; J. L. Burch

doi:10.3847/1538-4357/aac831

Observations of Whistler Waves Correlated with Electron-scale Coherent Structures in the Magnetosheath Turbulent Plasma

S. Y. Huang
, F. Sahraoui
, Z. G. Yuan
, O. Le Contel
, H. Breuillard
, J. S. He
, J. S. Zhao
, H. S. Fu
, M. Zhou
, X. H. Deng
, X. Y. Wang
, J. W. Du
, X. D. Yu
, D. D. Wang
, C. J. Pollock
, R. B. Torbert
, J. L. Burch

School of Space and Earth Sciences

Wuhan University
CNRS-Ecole Polytechnique-UPMC
Peking University
CAS - Purple Mountain Observatory
Nanchang University
Helmholtz Centre Potsdam - German Research Centre for Geosciences
NASA Goddard Space Flight Center
University of New Hampshire
Southwest Research Institute

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

73 Scopus citations

Abstract

A new type of electron-scale coherent structure, referred to as electron vortex magnetic holes, was identified recently in the Earth's magnetosheath turbulent plasma. These electron-scale magnetic holes are characterized by magnetic field strength depression, electron density enhancement, temperature and temperature anisotropy increase (a significant increase in perpendicular temperature and a decrease in parallel temperature), and an electron vortex formed by the trapped electrons. The strong increase of electron temperature indicates that these magnetic holes have a strong connection with the energization of electrons. Here, using high time resolution in situ measurements from the MMS mission, it is further shown that electron-scale whistler waves coexist with electron-scale magnetic holes. These whistler waves were found not propagating from remote regions, but generated locally due to electron temperature anisotropy (T _eperp;/T _e∥) inside the magnetic holes. This study provides new insights into the electron-scale plasma dynamics in turbulent plasmas.

Original language	English
Article number	29
Journal	Astrophysical Journal
Volume	861
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/aac831
State	Published - 1 Jul 2018

Keywords

Turbulence
planets and satellites: magnetic fields
planets and satellites: physical evolution
plasmas
waves

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10.3847/1538-4357/aac831

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Huang, S. Y., Sahraoui, F., Yuan, Z. G., Contel, O. L., Breuillard, H., He, J. S., Zhao, J. S., Fu, H. S., Zhou, M., Deng, X. H., Wang, X. Y., Du, J. W., Yu, X. D., Wang, D. D., Pollock, C. J., Torbert, R. B., & Burch, J. L. (2018). Observations of Whistler Waves Correlated with Electron-scale Coherent Structures in the Magnetosheath Turbulent Plasma. Astrophysical Journal, 861(1), Article 29. https://doi.org/10.3847/1538-4357/aac831

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title = "Observations of Whistler Waves Correlated with Electron-scale Coherent Structures in the Magnetosheath Turbulent Plasma",

abstract = "A new type of electron-scale coherent structure, referred to as electron vortex magnetic holes, was identified recently in the Earth's magnetosheath turbulent plasma. These electron-scale magnetic holes are characterized by magnetic field strength depression, electron density enhancement, temperature and temperature anisotropy increase (a significant increase in perpendicular temperature and a decrease in parallel temperature), and an electron vortex formed by the trapped electrons. The strong increase of electron temperature indicates that these magnetic holes have a strong connection with the energization of electrons. Here, using high time resolution in situ measurements from the MMS mission, it is further shown that electron-scale whistler waves coexist with electron-scale magnetic holes. These whistler waves were found not propagating from remote regions, but generated locally due to electron temperature anisotropy (T eperp;/T e∥) inside the magnetic holes. This study provides new insights into the electron-scale plasma dynamics in turbulent plasmas.",

keywords = "Turbulence, planets and satellites: magnetic fields, planets and satellites: physical evolution, plasmas, waves",

author = "Huang, \{S. Y.\} and F. Sahraoui and Yuan, \{Z. G.\} and Contel, \{O. Le\} and H. Breuillard and He, \{J. S.\} and Zhao, \{J. S.\} and Fu, \{H. S.\} and M. Zhou and Deng, \{X. H.\} and Wang, \{X. Y.\} and Du, \{J. W.\} and Yu, \{X. D.\} and Wang, \{D. D.\} and Pollock, \{C. J.\} and Torbert, \{R. B.\} and Burch, \{J. L.\}",

year = "2018",

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doi = "10.3847/1538-4357/aac831",

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journal = "Astrophysical Journal",

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Huang, SY, Sahraoui, F, Yuan, ZG, Contel, OL, Breuillard, H, He, JS, Zhao, JS, Fu, HS, Zhou, M, Deng, XH, Wang, XY, Du, JW, Yu, XD, Wang, DD, Pollock, CJ, Torbert, RB & Burch, JL 2018, 'Observations of Whistler Waves Correlated with Electron-scale Coherent Structures in the Magnetosheath Turbulent Plasma', Astrophysical Journal, vol. 861, no. 1, 29. https://doi.org/10.3847/1538-4357/aac831

TY - JOUR

T1 - Observations of Whistler Waves Correlated with Electron-scale Coherent Structures in the Magnetosheath Turbulent Plasma

AU - Huang, S. Y.

AU - Sahraoui, F.

AU - Yuan, Z. G.

AU - Contel, O. Le

AU - Breuillard, H.

AU - He, J. S.

AU - Zhao, J. S.

AU - Fu, H. S.

AU - Zhou, M.

AU - Deng, X. H.

AU - Wang, X. Y.

AU - Du, J. W.

AU - Yu, X. D.

AU - Wang, D. D.

AU - Pollock, C. J.

AU - Torbert, R. B.

AU - Burch, J. L.

PY - 2018/7/1

Y1 - 2018/7/1

N2 - A new type of electron-scale coherent structure, referred to as electron vortex magnetic holes, was identified recently in the Earth's magnetosheath turbulent plasma. These electron-scale magnetic holes are characterized by magnetic field strength depression, electron density enhancement, temperature and temperature anisotropy increase (a significant increase in perpendicular temperature and a decrease in parallel temperature), and an electron vortex formed by the trapped electrons. The strong increase of electron temperature indicates that these magnetic holes have a strong connection with the energization of electrons. Here, using high time resolution in situ measurements from the MMS mission, it is further shown that electron-scale whistler waves coexist with electron-scale magnetic holes. These whistler waves were found not propagating from remote regions, but generated locally due to electron temperature anisotropy (T eperp;/T e∥) inside the magnetic holes. This study provides new insights into the electron-scale plasma dynamics in turbulent plasmas.

AB - A new type of electron-scale coherent structure, referred to as electron vortex magnetic holes, was identified recently in the Earth's magnetosheath turbulent plasma. These electron-scale magnetic holes are characterized by magnetic field strength depression, electron density enhancement, temperature and temperature anisotropy increase (a significant increase in perpendicular temperature and a decrease in parallel temperature), and an electron vortex formed by the trapped electrons. The strong increase of electron temperature indicates that these magnetic holes have a strong connection with the energization of electrons. Here, using high time resolution in situ measurements from the MMS mission, it is further shown that electron-scale whistler waves coexist with electron-scale magnetic holes. These whistler waves were found not propagating from remote regions, but generated locally due to electron temperature anisotropy (T eperp;/T e∥) inside the magnetic holes. This study provides new insights into the electron-scale plasma dynamics in turbulent plasmas.

KW - Turbulence

KW - planets and satellites: magnetic fields

KW - planets and satellites: physical evolution

KW - plasmas

KW - waves

UR - https://www.scopus.com/pages/publications/85049957048

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DO - 10.3847/1538-4357/aac831

M3 - 文章

AN - SCOPUS:85049957048

SN - 0004-637X

VL - 861

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 29

ER -

Observations of Whistler Waves Correlated with Electron-scale Coherent Structures in the Magnetosheath Turbulent Plasma

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Keywords

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