Electron Bulk Acceleration and Thermalization at Earth's Quasiperpendicular Bow Shock

L. J. Chen; S. Wang; L. B. Wilson; S. Schwartz; N. Bessho; T. Moore; D. Gershman; B. Giles; D. Malaspina; F. D. Wilder; R. E. Ergun; M. Hesse; H. Lai; C. Russell; R. Strangeway; R. B. Torbert; F. A. Vinas; J. Burch; S. Lee; C. Pollock; J. Dorelli; W. Paterson; N. Ahmadi; K. Goodrich; B. Lavraud; O. Le Contel; Yu V. Khotyaintsev; P. A. Lindqvist; S. Boardsen; H. Wei; A. Le; L. Avanov

doi:10.1103/PhysRevLett.120.225101

Electron Bulk Acceleration and Thermalization at Earth's Quasiperpendicular Bow Shock

L. J. Chen
, S. Wang
, L. B. Wilson
, S. Schwartz
, N. Bessho
, T. Moore
, D. Gershman
, B. Giles
, D. Malaspina
, F. D. Wilder
, R. E. Ergun
, M. Hesse
, H. Lai
, C. Russell
, R. Strangeway
, R. B. Torbert
, F. A. Vinas
, J. Burch
, S. Lee
, C. Pollock

J. Dorelli, W. Paterson, N. Ahmadi, K. Goodrich, B. Lavraud, O. Le Contel, Yu V. Khotyaintsev, P. A. Lindqvist, S. Boardsen, H. Wei, A. Le, L. Avanov

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Résumé

Electron heating at Earth's quasiperpendicular bow shock has been surmised to be due to the combined effects of a quasistatic electric potential and scattering through wave-particle interaction. Here we report the observation of electron distribution functions indicating a new electron heating process occurring at the leading edge of the shock front. Incident solar wind electrons are accelerated parallel to the magnetic field toward downstream, reaching an electron-ion relative drift speed exceeding the electron thermal speed. The bulk acceleration is associated with an electric field pulse embedded in a whistler-mode wave. The high electron-ion relative drift is relaxed primarily through a nonlinear current-driven instability. The relaxed distributions contain a beam traveling toward the shock as a remnant of the accelerated electrons. Similar distribution functions prevail throughout the shock transition layer, suggesting that the observed acceleration and thermalization is essential to the cross-shock electron heating.

langue originale	Anglais
Numéro d'article	225101
journal	Physical Review Letters
Volume	120
Numéro de publication	22
Les DOIs	https://doi.org/10.1103/PhysRevLett.120.225101
état	Publié - 31 mai 2018

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10.1103/PhysRevLett.120.225101

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Chen, L. J., Wang, S., Wilson, L. B., Schwartz, S., Bessho, N., Moore, T., Gershman, D., Giles, B., Malaspina, D., Wilder, F. D., Ergun, R. E., Hesse, M., Lai, H., Russell, C., Strangeway, R., Torbert, R. B., Vinas, F. A., Burch, J., Lee, S., ... Avanov, L. (2018). Electron Bulk Acceleration and Thermalization at Earth's Quasiperpendicular Bow Shock. Physical Review Letters, 120(22), Article 225101. https://doi.org/10.1103/PhysRevLett.120.225101

@article{c75b7b8deec74ad1959ff8fc580bf584,

title = "Electron Bulk Acceleration and Thermalization at Earth's Quasiperpendicular Bow Shock",

abstract = "Electron heating at Earth's quasiperpendicular bow shock has been surmised to be due to the combined effects of a quasistatic electric potential and scattering through wave-particle interaction. Here we report the observation of electron distribution functions indicating a new electron heating process occurring at the leading edge of the shock front. Incident solar wind electrons are accelerated parallel to the magnetic field toward downstream, reaching an electron-ion relative drift speed exceeding the electron thermal speed. The bulk acceleration is associated with an electric field pulse embedded in a whistler-mode wave. The high electron-ion relative drift is relaxed primarily through a nonlinear current-driven instability. The relaxed distributions contain a beam traveling toward the shock as a remnant of the accelerated electrons. Similar distribution functions prevail throughout the shock transition layer, suggesting that the observed acceleration and thermalization is essential to the cross-shock electron heating.",

author = "Chen, \{L. J.\} and S. Wang and Wilson, \{L. B.\} and S. Schwartz and N. Bessho and T. Moore and D. Gershman and B. Giles and D. Malaspina and Wilder, \{F. D.\} and Ergun, \{R. E.\} and M. Hesse and H. Lai and C. Russell and R. Strangeway and Torbert, \{R. B.\} and Vinas, \{F. A.\} and J. Burch and S. Lee and C. Pollock and J. Dorelli and W. Paterson and N. Ahmadi and K. Goodrich and B. Lavraud and \{Le Contel\}, O. and Khotyaintsev, \{Yu V.\} and Lindqvist, \{P. A.\} and S. Boardsen and H. Wei and A. Le and L. Avanov",

note = "Publisher Copyright: {\textcopyright} 2018 American Physical Society.",

year = "2018",

month = may,

day = "31",

doi = "10.1103/PhysRevLett.120.225101",

language = "English",

volume = "120",

journal = "Physical Review Letters",

issn = "0031-9007",

number = "22",

}

Chen, LJ, Wang, S, Wilson, LB, Schwartz, S, Bessho, N, Moore, T, Gershman, D, Giles, B, Malaspina, D, Wilder, FD, Ergun, RE, Hesse, M, Lai, H, Russell, C, Strangeway, R, Torbert, RB, Vinas, FA, Burch, J, Lee, S, Pollock, C, Dorelli, J, Paterson, W, Ahmadi, N, Goodrich, K, Lavraud, B, Le Contel, O, Khotyaintsev, YV, Lindqvist, PA, Boardsen, S, Wei, H, Le, A & Avanov, L 2018, 'Electron Bulk Acceleration and Thermalization at Earth's Quasiperpendicular Bow Shock', Physical Review Letters, VOL. 120, Numéro 22, 225101. https://doi.org/10.1103/PhysRevLett.120.225101

TY - JOUR

T1 - Electron Bulk Acceleration and Thermalization at Earth's Quasiperpendicular Bow Shock

AU - Chen, L. J.

AU - Wang, S.

AU - Wilson, L. B.

AU - Schwartz, S.

AU - Bessho, N.

AU - Moore, T.

AU - Gershman, D.

AU - Giles, B.

AU - Malaspina, D.

AU - Wilder, F. D.

AU - Ergun, R. E.

AU - Hesse, M.

AU - Lai, H.

AU - Russell, C.

AU - Strangeway, R.

AU - Torbert, R. B.

AU - Vinas, F. A.

AU - Burch, J.

AU - Lee, S.

AU - Pollock, C.

AU - Dorelli, J.

AU - Paterson, W.

AU - Ahmadi, N.

AU - Goodrich, K.

AU - Lavraud, B.

AU - Le Contel, O.

AU - Khotyaintsev, Yu V.

AU - Lindqvist, P. A.

AU - Boardsen, S.

AU - Wei, H.

AU - Le, A.

AU - Avanov, L.

PY - 2018/5/31

Y1 - 2018/5/31

N2 - Electron heating at Earth's quasiperpendicular bow shock has been surmised to be due to the combined effects of a quasistatic electric potential and scattering through wave-particle interaction. Here we report the observation of electron distribution functions indicating a new electron heating process occurring at the leading edge of the shock front. Incident solar wind electrons are accelerated parallel to the magnetic field toward downstream, reaching an electron-ion relative drift speed exceeding the electron thermal speed. The bulk acceleration is associated with an electric field pulse embedded in a whistler-mode wave. The high electron-ion relative drift is relaxed primarily through a nonlinear current-driven instability. The relaxed distributions contain a beam traveling toward the shock as a remnant of the accelerated electrons. Similar distribution functions prevail throughout the shock transition layer, suggesting that the observed acceleration and thermalization is essential to the cross-shock electron heating.

AB - Electron heating at Earth's quasiperpendicular bow shock has been surmised to be due to the combined effects of a quasistatic electric potential and scattering through wave-particle interaction. Here we report the observation of electron distribution functions indicating a new electron heating process occurring at the leading edge of the shock front. Incident solar wind electrons are accelerated parallel to the magnetic field toward downstream, reaching an electron-ion relative drift speed exceeding the electron thermal speed. The bulk acceleration is associated with an electric field pulse embedded in a whistler-mode wave. The high electron-ion relative drift is relaxed primarily through a nonlinear current-driven instability. The relaxed distributions contain a beam traveling toward the shock as a remnant of the accelerated electrons. Similar distribution functions prevail throughout the shock transition layer, suggesting that the observed acceleration and thermalization is essential to the cross-shock electron heating.

UR - https://www.scopus.com/pages/publications/85048161737

U2 - 10.1103/PhysRevLett.120.225101

DO - 10.1103/PhysRevLett.120.225101

M3 - Article

C2 - 29906189

AN - SCOPUS:85048161737

SN - 0031-9007

VL - 120

JO - Physical Review Letters

JF - Physical Review Letters

IS - 22

M1 - 225101

ER -

Electron Bulk Acceleration and Thermalization at Earth's Quasiperpendicular Bow Shock

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