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DRIFTING HOLES IN THE ENERGETIC ELECTRON FLUX AT GEOSYNCHRONOUS ORBIT FOLLOWING SUBSTORM ONSET. / Sergeev, V.A.; BOSINGER, T; BELIAN, RD; REEVES, GD; CAYTON, TE.

In: Journal of Geophysical Research, Vol. 97, No. A5, 01.05.1992, p. 6541-6548.

Research output: Contribution to journalComment/debatepeer-review

Harvard

Sergeev, VA, BOSINGER, T, BELIAN, RD, REEVES, GD & CAYTON, TE 1992, 'DRIFTING HOLES IN THE ENERGETIC ELECTRON FLUX AT GEOSYNCHRONOUS ORBIT FOLLOWING SUBSTORM ONSET', Journal of Geophysical Research, vol. 97, no. A5, pp. 6541-6548. https://doi.org/10.1029/92JA00182

APA

Sergeev, V. A., BOSINGER, T., BELIAN, RD., REEVES, GD., & CAYTON, TE. (1992). DRIFTING HOLES IN THE ENERGETIC ELECTRON FLUX AT GEOSYNCHRONOUS ORBIT FOLLOWING SUBSTORM ONSET. Journal of Geophysical Research, 97(A5), 6541-6548. https://doi.org/10.1029/92JA00182

Vancouver

Sergeev VA, BOSINGER T, BELIAN RD, REEVES GD, CAYTON TE. DRIFTING HOLES IN THE ENERGETIC ELECTRON FLUX AT GEOSYNCHRONOUS ORBIT FOLLOWING SUBSTORM ONSET. Journal of Geophysical Research. 1992 May 1;97(A5):6541-6548. https://doi.org/10.1029/92JA00182

Author

Sergeev, V.A. ; BOSINGER, T ; BELIAN, RD ; REEVES, GD ; CAYTON, TE. / DRIFTING HOLES IN THE ENERGETIC ELECTRON FLUX AT GEOSYNCHRONOUS ORBIT FOLLOWING SUBSTORM ONSET. In: Journal of Geophysical Research. 1992 ; Vol. 97, No. A5. pp. 6541-6548.

BibTeX

@article{f658f835f39441a6b5acecc2f5e2184a,
title = "DRIFTING HOLES IN THE ENERGETIC ELECTRON FLUX AT GEOSYNCHRONOUS ORBIT FOLLOWING SUBSTORM ONSET",
abstract = "A new type of substorm-related particle flux change was discovered at geosynchronous orbit. It is manifested as a decrease in energetic electron flux (of initial duration about 1-2 min) starting near local magnetic midnight at a time of high-energy particle injection to geosynchronous distance. Unlike {"}dropouts,{"} which are observed only in the midnight local time sector, this flux signature drifted eastward showing the typical energy and LT dependent time patterns of electron drift. This phenomenon was seen only in electron fluxes above a certain threshold energy and was characterized by a moderate amplitude of flux variation (within a factor of 3). Below the threshold energy the normal substorm-associated increase in electron flux (drifting cloud of accelerated particles) was detected. The phenomenon in question, called a drifting electron hole, is explained as being a result of adiabatic redistribution of an already existing high-energy electron component recently described by Cayton et al. (1989). It is argued that in the case of a strong (inward directed) radial gradient of electron flux and of a hard energy spectrum the electron fluxes which are brought to a lower drift shell by the inward injection may still be smaller than the previously existing fluxes at this drift shell. This leads to an apparent loss of electrons in some localized portion of the drift shells (e.g., at geosynchronous orbit). Another explanation of the drifting electron hole based on rapid particle losses due to precipitation seems less probable.",
keywords = "PARTICLE MEASUREMENTS, SYNCHRONOUS ORBIT, CURRENT SHEET, PLASMA SHEET, GROWTH-PHASE, MAGNETOSPHERE, 6.6-RE, ECHOES, REGION",
author = "V.A. Sergeev and T BOSINGER and RD BELIAN and GD REEVES and TE CAYTON",
year = "1992",
month = may,
day = "1",
doi = "10.1029/92JA00182",
language = "Английский",
volume = "97",
pages = "6541--6548",
journal = "Journal of Geophysical Research: Biogeosciences",
issn = "0148-0227",
publisher = "American Geophysical Union",
number = "A5",

}

RIS

TY - JOUR

T1 - DRIFTING HOLES IN THE ENERGETIC ELECTRON FLUX AT GEOSYNCHRONOUS ORBIT FOLLOWING SUBSTORM ONSET

AU - Sergeev, V.A.

AU - BOSINGER, T

AU - BELIAN, RD

AU - REEVES, GD

AU - CAYTON, TE

PY - 1992/5/1

Y1 - 1992/5/1

N2 - A new type of substorm-related particle flux change was discovered at geosynchronous orbit. It is manifested as a decrease in energetic electron flux (of initial duration about 1-2 min) starting near local magnetic midnight at a time of high-energy particle injection to geosynchronous distance. Unlike "dropouts," which are observed only in the midnight local time sector, this flux signature drifted eastward showing the typical energy and LT dependent time patterns of electron drift. This phenomenon was seen only in electron fluxes above a certain threshold energy and was characterized by a moderate amplitude of flux variation (within a factor of 3). Below the threshold energy the normal substorm-associated increase in electron flux (drifting cloud of accelerated particles) was detected. The phenomenon in question, called a drifting electron hole, is explained as being a result of adiabatic redistribution of an already existing high-energy electron component recently described by Cayton et al. (1989). It is argued that in the case of a strong (inward directed) radial gradient of electron flux and of a hard energy spectrum the electron fluxes which are brought to a lower drift shell by the inward injection may still be smaller than the previously existing fluxes at this drift shell. This leads to an apparent loss of electrons in some localized portion of the drift shells (e.g., at geosynchronous orbit). Another explanation of the drifting electron hole based on rapid particle losses due to precipitation seems less probable.

AB - A new type of substorm-related particle flux change was discovered at geosynchronous orbit. It is manifested as a decrease in energetic electron flux (of initial duration about 1-2 min) starting near local magnetic midnight at a time of high-energy particle injection to geosynchronous distance. Unlike "dropouts," which are observed only in the midnight local time sector, this flux signature drifted eastward showing the typical energy and LT dependent time patterns of electron drift. This phenomenon was seen only in electron fluxes above a certain threshold energy and was characterized by a moderate amplitude of flux variation (within a factor of 3). Below the threshold energy the normal substorm-associated increase in electron flux (drifting cloud of accelerated particles) was detected. The phenomenon in question, called a drifting electron hole, is explained as being a result of adiabatic redistribution of an already existing high-energy electron component recently described by Cayton et al. (1989). It is argued that in the case of a strong (inward directed) radial gradient of electron flux and of a hard energy spectrum the electron fluxes which are brought to a lower drift shell by the inward injection may still be smaller than the previously existing fluxes at this drift shell. This leads to an apparent loss of electrons in some localized portion of the drift shells (e.g., at geosynchronous orbit). Another explanation of the drifting electron hole based on rapid particle losses due to precipitation seems less probable.

KW - PARTICLE MEASUREMENTS

KW - SYNCHRONOUS ORBIT

KW - CURRENT SHEET

KW - PLASMA SHEET

KW - GROWTH-PHASE

KW - MAGNETOSPHERE

KW - 6.6-RE

KW - ECHOES

KW - REGION

U2 - 10.1029/92JA00182

DO - 10.1029/92JA00182

M3 - комментарий, выступление

VL - 97

SP - 6541

EP - 6548

JO - Journal of Geophysical Research: Biogeosciences

JF - Journal of Geophysical Research: Biogeosciences

SN - 0148-0227

IS - A5

ER -

ID: 36636379