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Connection between the discrete auroral structures drifting equatorward during the substorm expansion phase and the energetic particle injections at the geostationary orbit. / Dmitrieva, N.P.; Beloshkurskaya, M.M.; Kornilova, T.A.; Kornilov, I.A.

в: Cosmic Research, Том 52, № 4, 2014, стр. 260-268.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Dmitrieva, NP, Beloshkurskaya, MM, Kornilova, TA & Kornilov, IA 2014, 'Connection between the discrete auroral structures drifting equatorward during the substorm expansion phase and the energetic particle injections at the geostationary orbit', Cosmic Research, Том. 52, № 4, стр. 260-268. https://doi.org/10.1134/S0010952514040030

APA

Dmitrieva, N. P., Beloshkurskaya, M. M., Kornilova, T. A., & Kornilov, I. A. (2014). Connection between the discrete auroral structures drifting equatorward during the substorm expansion phase and the energetic particle injections at the geostationary orbit. Cosmic Research, 52(4), 260-268. https://doi.org/10.1134/S0010952514040030

Vancouver

Dmitrieva NP, Beloshkurskaya MM, Kornilova TA, Kornilov IA. Connection between the discrete auroral structures drifting equatorward during the substorm expansion phase and the energetic particle injections at the geostationary orbit. Cosmic Research. 2014;52(4):260-268. https://doi.org/10.1134/S0010952514040030

Author

Dmitrieva, N.P. ; Beloshkurskaya, M.M. ; Kornilova, T.A. ; Kornilov, I.A. / Connection between the discrete auroral structures drifting equatorward during the substorm expansion phase and the energetic particle injections at the geostationary orbit. в: Cosmic Research. 2014 ; Том 52, № 4. стр. 260-268.

BibTeX

@article{6df0479daa764bfd80ea4ea2de75f797,
title = "Connection between the discrete auroral structures drifting equatorward during the substorm expansion phase and the energetic particle injections at the geostationary orbit",
abstract = "The formation of an auroral bulge with a bright dynamical arc at its polar boundary is one of the main manifestations of the magnetospheric substorm expansion phase at the ionospheric level. At the same time, the region of discrete aurora broadens not only polewards but equatorwards as well. The discrete forms of auroras moving equatorwards form a dynamical equatorial boundary of the auroral bulge shifting together with them. The paper presents a spatial-time comparison of the drifting discrete auroras to the injection of energetic particles at the geostationary orbit. It is shown that bursts in the fluxes of energetic particles at the LANL geostationary satellites located in the same sector of MLT correspond to the majority of drifting discrete auroral structures observed by the all-sky camera. In the cases when the bursts in the fluxes are absent, the minimum latitude reached by the auroral structures at the equatorward drift is higher than the ionospheric projection of the geostationary orbit. A possible r",
author = "N.P. Dmitrieva and M.M. Beloshkurskaya and T.A. Kornilova and I.A. Kornilov",
year = "2014",
doi = "10.1134/S0010952514040030",
language = "English",
volume = "52",
pages = "260--268",
journal = "Cosmic Research",
issn = "0010-9525",
publisher = "МАИК {"}Наука/Интерпериодика{"}",
number = "4",

}

RIS

TY - JOUR

T1 - Connection between the discrete auroral structures drifting equatorward during the substorm expansion phase and the energetic particle injections at the geostationary orbit

AU - Dmitrieva, N.P.

AU - Beloshkurskaya, M.M.

AU - Kornilova, T.A.

AU - Kornilov, I.A.

PY - 2014

Y1 - 2014

N2 - The formation of an auroral bulge with a bright dynamical arc at its polar boundary is one of the main manifestations of the magnetospheric substorm expansion phase at the ionospheric level. At the same time, the region of discrete aurora broadens not only polewards but equatorwards as well. The discrete forms of auroras moving equatorwards form a dynamical equatorial boundary of the auroral bulge shifting together with them. The paper presents a spatial-time comparison of the drifting discrete auroras to the injection of energetic particles at the geostationary orbit. It is shown that bursts in the fluxes of energetic particles at the LANL geostationary satellites located in the same sector of MLT correspond to the majority of drifting discrete auroral structures observed by the all-sky camera. In the cases when the bursts in the fluxes are absent, the minimum latitude reached by the auroral structures at the equatorward drift is higher than the ionospheric projection of the geostationary orbit. A possible r

AB - The formation of an auroral bulge with a bright dynamical arc at its polar boundary is one of the main manifestations of the magnetospheric substorm expansion phase at the ionospheric level. At the same time, the region of discrete aurora broadens not only polewards but equatorwards as well. The discrete forms of auroras moving equatorwards form a dynamical equatorial boundary of the auroral bulge shifting together with them. The paper presents a spatial-time comparison of the drifting discrete auroras to the injection of energetic particles at the geostationary orbit. It is shown that bursts in the fluxes of energetic particles at the LANL geostationary satellites located in the same sector of MLT correspond to the majority of drifting discrete auroral structures observed by the all-sky camera. In the cases when the bursts in the fluxes are absent, the minimum latitude reached by the auroral structures at the equatorward drift is higher than the ionospheric projection of the geostationary orbit. A possible r

U2 - 10.1134/S0010952514040030

DO - 10.1134/S0010952514040030

M3 - Article

VL - 52

SP - 260

EP - 268

JO - Cosmic Research

JF - Cosmic Research

SN - 0010-9525

IS - 4

ER -

ID: 7016401