Waves in Kinetic-Scale Magnetic Dips: MMS Observations in the Magnetosheath

S. T. Yao; Q. Q. Shi; Z. H. Yao; J. X. Li; C. Yue; X. Tao; A. W. Degeling; Q. G. Zong; X. G. Wang; A. M. Tian; C. T. Russell; X. Z. Zhou; R. L. Guo; I. J. Rae; H. S. Fu; H. Zhang; L. Li; O. Le Contel; R. B. Torbert; R. E. Ergun; P. A. Lindqvist; C. J. Pollock; B. L. Giles

doi:10.1029/2018GL080696

Waves in Kinetic-Scale Magnetic Dips: MMS Observations in the Magnetosheath

S. T. Yao
, Q. Q. Shi
, Z. H. Yao
, J. X. Li
, C. Yue
, X. Tao
, A. W. Degeling
, Q. G. Zong
, X. G. Wang
, A. M. Tian
, C. T. Russell
, X. Z. Zhou
, R. L. Guo
, I. J. Rae
, H. S. Fu
, H. Zhang
, L. Li
, O. Le Contel
, R. B. Torbert
, R. E. Ergun

P. A. Lindqvist, C. J. Pollock, B. L. Giles

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

Abstract

Kinetic-scale magnetic dips (KSMDs), with a significant depression in magnetic field strength, and scale length close to and less than one proton gyroradius, were reported in the turbulent plasmas both in recent observation and numerical simulation studies. These KSMDs likely play important roles in energy conversion and dissipation. In this study, we present observations of the KSMDs that are labeled whistler mode waves, electrostatic solitary waves, and electron cyclotron waves in the magnetosheath. The observations suggest that electron temperature anisotropy or beams within KSMD structures provide free energy to generate these waves. In addition, the occurrence rates of the waves are higher in the center of the magnetic dips than at their edges, implying that the KSMDs might be the origin of various kinds of waves. We suggest that the KSMDs could provide favorable conditions for the generation of waves and transfer energy to the waves in turbulent magnetosheath plasmas.

Original language	English
Pages (from-to)	523-533
Number of pages	11
Journal	Geophysical Research Letters
Volume	46
Issue number	2
DOIs	https://doi.org/10.1029/2018GL080696
Publication status	Published - 28 Jan 2019

Keywords

electron cyclotron waves
electrostatic solitary waves
kinetic scale
magnetic hole
origin of waves
whistler mode waves

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10.1029/2018GL080696

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Yao, S. T., Shi, Q. Q., Yao, Z. H., Li, J. X., Yue, C., Tao, X., Degeling, A. W., Zong, Q. G., Wang, X. G., Tian, A. M., Russell, C. T., Zhou, X. Z., Guo, R. L., Rae, I. J., Fu, H. S., Zhang, H., Li, L., Le Contel, O., Torbert, R. B., ... Giles, B. L. (2019). Waves in Kinetic-Scale Magnetic Dips: MMS Observations in the Magnetosheath. Geophysical Research Letters, 46(2), 523-533. https://doi.org/10.1029/2018GL080696

@article{b7ce0bfdb1bf4fd0a13a60122fc59b4b,

title = "Waves in Kinetic-Scale Magnetic Dips: MMS Observations in the Magnetosheath",

abstract = "Kinetic-scale magnetic dips (KSMDs), with a significant depression in magnetic field strength, and scale length close to and less than one proton gyroradius, were reported in the turbulent plasmas both in recent observation and numerical simulation studies. These KSMDs likely play important roles in energy conversion and dissipation. In this study, we present observations of the KSMDs that are labeled whistler mode waves, electrostatic solitary waves, and electron cyclotron waves in the magnetosheath. The observations suggest that electron temperature anisotropy or beams within KSMD structures provide free energy to generate these waves. In addition, the occurrence rates of the waves are higher in the center of the magnetic dips than at their edges, implying that the KSMDs might be the origin of various kinds of waves. We suggest that the KSMDs could provide favorable conditions for the generation of waves and transfer energy to the waves in turbulent magnetosheath plasmas.",

keywords = "electron cyclotron waves, electrostatic solitary waves, kinetic scale, magnetic hole, origin of waves, whistler mode waves",

author = "Yao, \{S. T.\} and Shi, \{Q. Q.\} and Yao, \{Z. H.\} and Li, \{J. X.\} and C. Yue and X. Tao and Degeling, \{A. W.\} and Zong, \{Q. G.\} and Wang, \{X. G.\} and Tian, \{A. M.\} and Russell, \{C. T.\} and Zhou, \{X. Z.\} and Guo, \{R. L.\} and Rae, \{I. J.\} and Fu, \{H. S.\} and H. Zhang and L. Li and \{Le Contel\}, O. and Torbert, \{R. B.\} and Ergun, \{R. E.\} and Lindqvist, \{P. A.\} and Pollock, \{C. J.\} and Giles, \{B. L.\}",

year = "2019",

month = jan,

day = "28",

doi = "10.1029/2018GL080696",

language = "English",

volume = "46",

pages = "523--533",

journal = "Geophysical Research Letters",

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Yao, ST, Shi, QQ, Yao, ZH, Li, JX, Yue, C, Tao, X, Degeling, AW, Zong, QG, Wang, XG, Tian, AM, Russell, CT, Zhou, XZ, Guo, RL, Rae, IJ, Fu, HS, Zhang, H, Li, L, Le Contel, O, Torbert, RB, Ergun, RE, Lindqvist, PA, Pollock, CJ & Giles, BL 2019, 'Waves in Kinetic-Scale Magnetic Dips: MMS Observations in the Magnetosheath', Geophysical Research Letters, vol. 46, no. 2, pp. 523-533. https://doi.org/10.1029/2018GL080696

TY - JOUR

T1 - Waves in Kinetic-Scale Magnetic Dips

T2 - MMS Observations in the Magnetosheath

AU - Yao, S. T.

AU - Shi, Q. Q.

AU - Yao, Z. H.

AU - Li, J. X.

AU - Yue, C.

AU - Tao, X.

AU - Degeling, A. W.

AU - Zong, Q. G.

AU - Wang, X. G.

AU - Tian, A. M.

AU - Russell, C. T.

AU - Zhou, X. Z.

AU - Guo, R. L.

AU - Rae, I. J.

AU - Fu, H. S.

AU - Zhang, H.

AU - Li, L.

AU - Le Contel, O.

AU - Torbert, R. B.

AU - Ergun, R. E.

AU - Lindqvist, P. A.

AU - Pollock, C. J.

AU - Giles, B. L.

PY - 2019/1/28

Y1 - 2019/1/28

N2 - Kinetic-scale magnetic dips (KSMDs), with a significant depression in magnetic field strength, and scale length close to and less than one proton gyroradius, were reported in the turbulent plasmas both in recent observation and numerical simulation studies. These KSMDs likely play important roles in energy conversion and dissipation. In this study, we present observations of the KSMDs that are labeled whistler mode waves, electrostatic solitary waves, and electron cyclotron waves in the magnetosheath. The observations suggest that electron temperature anisotropy or beams within KSMD structures provide free energy to generate these waves. In addition, the occurrence rates of the waves are higher in the center of the magnetic dips than at their edges, implying that the KSMDs might be the origin of various kinds of waves. We suggest that the KSMDs could provide favorable conditions for the generation of waves and transfer energy to the waves in turbulent magnetosheath plasmas.

AB - Kinetic-scale magnetic dips (KSMDs), with a significant depression in magnetic field strength, and scale length close to and less than one proton gyroradius, were reported in the turbulent plasmas both in recent observation and numerical simulation studies. These KSMDs likely play important roles in energy conversion and dissipation. In this study, we present observations of the KSMDs that are labeled whistler mode waves, electrostatic solitary waves, and electron cyclotron waves in the magnetosheath. The observations suggest that electron temperature anisotropy or beams within KSMD structures provide free energy to generate these waves. In addition, the occurrence rates of the waves are higher in the center of the magnetic dips than at their edges, implying that the KSMDs might be the origin of various kinds of waves. We suggest that the KSMDs could provide favorable conditions for the generation of waves and transfer energy to the waves in turbulent magnetosheath plasmas.

KW - electron cyclotron waves

KW - electrostatic solitary waves

KW - kinetic scale

KW - magnetic hole

KW - origin of waves

KW - whistler mode waves

UR - https://www.scopus.com/pages/publications/85060180006

U2 - 10.1029/2018GL080696

DO - 10.1029/2018GL080696

M3 - Article

AN - SCOPUS:85060180006

SN - 0094-8276

VL - 46

SP - 523

EP - 533

JO - Geophysical Research Letters

JF - Geophysical Research Letters

IS - 2

ER -

Waves in Kinetic-Scale Magnetic Dips: MMS Observations in the Magnetosheath

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Keywords

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