Transport of transient solar wind particles in Earth's cusps

G. K. Parks; E. Lee; A. Teste; M. Wilber; N. Lin; P. Canu; I. Dandouras; H. R̀me; S. Y. Fu; M. L. Goldstein

doi:10.1063/1.2965825

Transport of transient solar wind particles in Earth's cusps

G. K. Parks
, E. Lee
, A. Teste
, M. Wilber
, N. Lin
, P. Canu
, I. Dandouras
, H. R̀me
, S. Y. Fu
, M. L. Goldstein

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

Abstract

An important problem in space physics still not understood well is how the solar wind enters the Earth's magnetosphere. Evidence is presented that transient solar wind particles produced by solar disturbances can appear in the Earth's mid-altitude (∼5 RE geocentric) cusps with densities nearly equal to those in the magnetosheath. That these are magnetosheath particles is established by showing they have the same "flattop" electron distributions as magnetosheath electrons behind the bow shock. The transient ions are moving parallel to the magnetic field (B) toward Earth and often coexist with ionospheric particles that are flowing out. The accompanying waves include electromagnetic and broadband electrostatic noise emissions and Bernstein mode waves. Phase-space distributions show a mixture of hot and cold electrons and multiple ion species including field-aligned ionospheric O+ beams.

Original language	English
Article number	080702
Journal	Physics of Plasmas
Volume	15
Issue number	8
DOIs	https://doi.org/10.1063/1.2965825
Publication status	Published - 8 Sept 2008
Externally published	Yes

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Cite this

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title = "Transport of transient solar wind particles in Earth's cusps",

abstract = "An important problem in space physics still not understood well is how the solar wind enters the Earth's magnetosphere. Evidence is presented that transient solar wind particles produced by solar disturbances can appear in the Earth's mid-altitude (∼5 RE geocentric) cusps with densities nearly equal to those in the magnetosheath. That these are magnetosheath particles is established by showing they have the same {"}flattop{"} electron distributions as magnetosheath electrons behind the bow shock. The transient ions are moving parallel to the magnetic field (B) toward Earth and often coexist with ionospheric particles that are flowing out. The accompanying waves include electromagnetic and broadband electrostatic noise emissions and Bernstein mode waves. Phase-space distributions show a mixture of hot and cold electrons and multiple ion species including field-aligned ionospheric O+ beams.",

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AU - Parks, G. K.

AU - Lee, E.

AU - Teste, A.

AU - Wilber, M.

AU - Lin, N.

AU - Canu, P.

AU - Dandouras, I.

AU - R̀me, H.

AU - Fu, S. Y.

AU - Goldstein, M. L.

PY - 2008/9/8

Y1 - 2008/9/8

N2 - An important problem in space physics still not understood well is how the solar wind enters the Earth's magnetosphere. Evidence is presented that transient solar wind particles produced by solar disturbances can appear in the Earth's mid-altitude (∼5 RE geocentric) cusps with densities nearly equal to those in the magnetosheath. That these are magnetosheath particles is established by showing they have the same "flattop" electron distributions as magnetosheath electrons behind the bow shock. The transient ions are moving parallel to the magnetic field (B) toward Earth and often coexist with ionospheric particles that are flowing out. The accompanying waves include electromagnetic and broadband electrostatic noise emissions and Bernstein mode waves. Phase-space distributions show a mixture of hot and cold electrons and multiple ion species including field-aligned ionospheric O+ beams.

AB - An important problem in space physics still not understood well is how the solar wind enters the Earth's magnetosphere. Evidence is presented that transient solar wind particles produced by solar disturbances can appear in the Earth's mid-altitude (∼5 RE geocentric) cusps with densities nearly equal to those in the magnetosheath. That these are magnetosheath particles is established by showing they have the same "flattop" electron distributions as magnetosheath electrons behind the bow shock. The transient ions are moving parallel to the magnetic field (B) toward Earth and often coexist with ionospheric particles that are flowing out. The accompanying waves include electromagnetic and broadband electrostatic noise emissions and Bernstein mode waves. Phase-space distributions show a mixture of hot and cold electrons and multiple ion species including field-aligned ionospheric O+ beams.

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U2 - 10.1063/1.2965825

DO - 10.1063/1.2965825

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VL - 15

JO - Physics of Plasmas

JF - Physics of Plasmas

IS - 8

M1 - 080702

ER -

Transport of transient solar wind particles in Earth's cusps

Abstract

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