Dayside response of the magnetosphere to a small shock compression: Van Allen Probes, Magnetospheric MultiScale, and GOES-13

C. Cattell; A. Breneman; C. Colpitts; J. Dombeck; S. Thaller; S. Tian; J. Wygant; J. Fennell; M. K. Hudson; Robert Ergun; C. T. Russell; Roy Torbert; Per Arne Lindqvist; J. Burch

doi:10.1002/2017GL074895

Dayside response of the magnetosphere to a small shock compression: Van Allen Probes, Magnetospheric MultiScale, and GOES-13

C. Cattell, A. Breneman, C. Colpitts, J. Dombeck, S. Thaller, S. Tian, J. Wygant, J. Fennell, M. K. Hudson, Robert Ergun, C. T. Russell, Roy Torbert, Per Arne Lindqvist, J. Burch

Physics and Astronomy (Twin Cities)

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14 Scopus citations

Abstract

Observations from Magnetospheric MultiScale (~8 Re) and Van Allen Probes (~5 and 4 Re) show that the initial dayside response to a small interplanetary shock is a double-peaked dawnward electric field, which is distinctly different from the usual bipolar (dawnward and then duskward) signature reported for large shocks. The associated E × B flow is radially inward. The shock compressed the magnetopause to inside 8 Re, as observed by Magnetospheric MultiScale (MMS), with a speed that is comparable to the E × B flow. The magnetopause speed and the E × B speeds were significantly less than the propagation speed of the pulse from MMS to the Van Allen Probes and GOES-13, which is consistent with the MHD fast mode. There were increased fluxes of energetic electrons up to several MeV. Signatures of drift echoes and response to ULF waves also were seen. These observations demonstrate that even very weak shocks can have significant impact on the radiation belts.

Original language	English (US)
Pages (from-to)	8712-8720
Number of pages	9
Journal	Geophysical Research Letters
Volume	44
Issue number	17
DOIs	https://doi.org/10.1002/2017GL074895
State	Published - Sep 16 2017

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Publisher Copyright:
©2017. The Authors.

Keywords

electric field response
interplanetary shock
magnetopause
radiation belt

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Cattell, C., Breneman, A., Colpitts, C., Dombeck, J., Thaller, S., Tian, S., Wygant, J., Fennell, J., Hudson, M. K., Ergun, R., Russell, C. T., Torbert, R., Lindqvist, P. A., & Burch, J. (2017). Dayside response of the magnetosphere to a small shock compression: Van Allen Probes, Magnetospheric MultiScale, and GOES-13. Geophysical Research Letters, 44(17), 8712-8720. https://doi.org/10.1002/2017GL074895

Cattell, C, Breneman, A, Colpitts, C , Dombeck, J, Thaller, S, Tian, S, Wygant, J, Fennell, J, Hudson, MK, Ergun, R, Russell, CT, Torbert, R, Lindqvist, PA & Burch, J 2017, 'Dayside response of the magnetosphere to a small shock compression: Van Allen Probes, Magnetospheric MultiScale, and GOES-13', Geophysical Research Letters, vol. 44, no. 17, pp. 8712-8720. https://doi.org/10.1002/2017GL074895

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abstract = "Observations from Magnetospheric MultiScale (~8 Re) and Van Allen Probes (~5 and 4 Re) show that the initial dayside response to a small interplanetary shock is a double-peaked dawnward electric field, which is distinctly different from the usual bipolar (dawnward and then duskward) signature reported for large shocks. The associated E × B flow is radially inward. The shock compressed the magnetopause to inside 8 Re, as observed by Magnetospheric MultiScale (MMS), with a speed that is comparable to the E × B flow. The magnetopause speed and the E × B speeds were significantly less than the propagation speed of the pulse from MMS to the Van Allen Probes and GOES-13, which is consistent with the MHD fast mode. There were increased fluxes of energetic electrons up to several MeV. Signatures of drift echoes and response to ULF waves also were seen. These observations demonstrate that even very weak shocks can have significant impact on the radiation belts.",

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AU - Cattell, C.

AU - Breneman, A.

AU - Colpitts, C.

AU - Dombeck, J.

AU - Thaller, S.

AU - Tian, S.

AU - Wygant, J.

AU - Fennell, J.

AU - Hudson, M. K.

AU - Ergun, Robert

AU - Russell, C. T.

AU - Torbert, Roy

AU - Lindqvist, Per Arne

AU - Burch, J.

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N2 - Observations from Magnetospheric MultiScale (~8 Re) and Van Allen Probes (~5 and 4 Re) show that the initial dayside response to a small interplanetary shock is a double-peaked dawnward electric field, which is distinctly different from the usual bipolar (dawnward and then duskward) signature reported for large shocks. The associated E × B flow is radially inward. The shock compressed the magnetopause to inside 8 Re, as observed by Magnetospheric MultiScale (MMS), with a speed that is comparable to the E × B flow. The magnetopause speed and the E × B speeds were significantly less than the propagation speed of the pulse from MMS to the Van Allen Probes and GOES-13, which is consistent with the MHD fast mode. There were increased fluxes of energetic electrons up to several MeV. Signatures of drift echoes and response to ULF waves also were seen. These observations demonstrate that even very weak shocks can have significant impact on the radiation belts.

AB - Observations from Magnetospheric MultiScale (~8 Re) and Van Allen Probes (~5 and 4 Re) show that the initial dayside response to a small interplanetary shock is a double-peaked dawnward electric field, which is distinctly different from the usual bipolar (dawnward and then duskward) signature reported for large shocks. The associated E × B flow is radially inward. The shock compressed the magnetopause to inside 8 Re, as observed by Magnetospheric MultiScale (MMS), with a speed that is comparable to the E × B flow. The magnetopause speed and the E × B speeds were significantly less than the propagation speed of the pulse from MMS to the Van Allen Probes and GOES-13, which is consistent with the MHD fast mode. There were increased fluxes of energetic electrons up to several MeV. Signatures of drift echoes and response to ULF waves also were seen. These observations demonstrate that even very weak shocks can have significant impact on the radiation belts.

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Dayside response of the magnetosphere to a small shock compression: Van Allen Probes, Magnetospheric MultiScale, and GOES-13

Abstract

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Keywords

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