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Short-duration convection bays and localized interplanetary magnetic field structures on November 28, 1995. / Sergeev, VA; Kamide, Y; Kokubun, S; Nakamura, R; Deehr, CS; Hughes, TJ; Lepping, RP; Mukai, T; Petrukovich, AA; Shue, JH; Shinokawa, K; Troshichev, OA; Yumoto, K.

In: JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, Vol. 103, No. A10, 01.10.1998, p. 23593-23609.

Research output: Contribution to journalArticlepeer-review

Harvard

Sergeev, VA, Kamide, Y, Kokubun, S, Nakamura, R, Deehr, CS, Hughes, TJ, Lepping, RP, Mukai, T, Petrukovich, AA, Shue, JH, Shinokawa, K, Troshichev, OA & Yumoto, K 1998, 'Short-duration convection bays and localized interplanetary magnetic field structures on November 28, 1995', JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, vol. 103, no. A10, pp. 23593-23609. https://doi.org/10.1029/98JA01747

APA

Sergeev, VA., Kamide, Y., Kokubun, S., Nakamura, R., Deehr, CS., Hughes, TJ., Lepping, RP., Mukai, T., Petrukovich, AA., Shue, JH., Shinokawa, K., Troshichev, OA., & Yumoto, K. (1998). Short-duration convection bays and localized interplanetary magnetic field structures on November 28, 1995. JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 103(A10), 23593-23609. https://doi.org/10.1029/98JA01747

Vancouver

Sergeev VA, Kamide Y, Kokubun S, Nakamura R, Deehr CS, Hughes TJ et al. Short-duration convection bays and localized interplanetary magnetic field structures on November 28, 1995. JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS. 1998 Oct 1;103(A10):23593-23609. https://doi.org/10.1029/98JA01747

Author

Sergeev, VA ; Kamide, Y ; Kokubun, S ; Nakamura, R ; Deehr, CS ; Hughes, TJ ; Lepping, RP ; Mukai, T ; Petrukovich, AA ; Shue, JH ; Shinokawa, K ; Troshichev, OA ; Yumoto, K. / Short-duration convection bays and localized interplanetary magnetic field structures on November 28, 1995. In: JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS. 1998 ; Vol. 103, No. A10. pp. 23593-23609.

BibTeX

@article{07a52e0fd81c4854ba0d801c2411cb0a,
title = "Short-duration convection bays and localized interplanetary magnetic field structures on November 28, 1995",
abstract = "We present ground-based, plasma sheet, and magnetosheath observations of two subsequent short-duration (10-20 min) increases of the postmidnight westward electrojet on November 28, 1995. Appearing: as though small (150-200 nT) substorms, they were not accompanied by any substorm expansion onset signatures. Auroral breakup, worldwide Pi2 pulsations, and the corresponding plasma sheet activity, such as fast flows, current disruption, and plasmoid generation, were all observed only at the recovery of the second electrojet increase. These convection bays were associated with the equatorward expansion of the auroras and simultaneous magnetic variations in the polar cap and middle latitudes. Growth phase signatures of the lobe field increase and tailward stretching of magnetic field were also observed in the plasma sheet. Bursty bulk flows in the plasma sheet seem to be quenched at the onset of first convection bay and did not resume until the auroral breakup which concluded the second convection bay, A point of interest of this event was the {"}incomplete{"} convection/current system with a well-developed dawn vortex in the absence of well-defined dusk vortex; instead, a complicated transient activity dominated over the afternoon-dusk local time sector. We interpret this asymmetry either in terms of the magnetopause encounter with the edge of the solar wind driver, i.e., strong southward IMF, which hits only the dawn part of the magnetosphere, or with an extremely slant interplanetary discontinuity. This unique configuration was inferred from observations of uncorrelated strong southward B-z events by the Wind and IMP 8 spacecraft in the dusk and dawn magnetosheath, respectively, as well as from the directional analysis of the interplanetary discontinuities which form the edges of these structures, We suggest that interaction of the magnetosphere with very slant solar wind discontinuities may bring various specific features to magnetospheric and ionospheric dynamics that have not been reported.",
keywords = "SOLAR-WIND, MAGNETOSPHERIC SUBSTORMS, CURRENT SYSTEMS, DYNAMICS, PHYSICS, PHASES",
author = "VA Sergeev and Y Kamide and S Kokubun and R Nakamura and CS Deehr and TJ Hughes and RP Lepping and T Mukai and AA Petrukovich and JH Shue and K Shinokawa and OA Troshichev and K Yumoto",
year = "1998",
month = oct,
day = "1",
doi = "10.1029/98JA01747",
language = "Английский",
volume = "103",
pages = "23593--23609",
journal = "Journal of Geophysical Research: Biogeosciences",
issn = "0148-0227",
publisher = "American Geophysical Union",
number = "A10",

}

RIS

TY - JOUR

T1 - Short-duration convection bays and localized interplanetary magnetic field structures on November 28, 1995

AU - Sergeev, VA

AU - Kamide, Y

AU - Kokubun, S

AU - Nakamura, R

AU - Deehr, CS

AU - Hughes, TJ

AU - Lepping, RP

AU - Mukai, T

AU - Petrukovich, AA

AU - Shue, JH

AU - Shinokawa, K

AU - Troshichev, OA

AU - Yumoto, K

PY - 1998/10/1

Y1 - 1998/10/1

N2 - We present ground-based, plasma sheet, and magnetosheath observations of two subsequent short-duration (10-20 min) increases of the postmidnight westward electrojet on November 28, 1995. Appearing: as though small (150-200 nT) substorms, they were not accompanied by any substorm expansion onset signatures. Auroral breakup, worldwide Pi2 pulsations, and the corresponding plasma sheet activity, such as fast flows, current disruption, and plasmoid generation, were all observed only at the recovery of the second electrojet increase. These convection bays were associated with the equatorward expansion of the auroras and simultaneous magnetic variations in the polar cap and middle latitudes. Growth phase signatures of the lobe field increase and tailward stretching of magnetic field were also observed in the plasma sheet. Bursty bulk flows in the plasma sheet seem to be quenched at the onset of first convection bay and did not resume until the auroral breakup which concluded the second convection bay, A point of interest of this event was the "incomplete" convection/current system with a well-developed dawn vortex in the absence of well-defined dusk vortex; instead, a complicated transient activity dominated over the afternoon-dusk local time sector. We interpret this asymmetry either in terms of the magnetopause encounter with the edge of the solar wind driver, i.e., strong southward IMF, which hits only the dawn part of the magnetosphere, or with an extremely slant interplanetary discontinuity. This unique configuration was inferred from observations of uncorrelated strong southward B-z events by the Wind and IMP 8 spacecraft in the dusk and dawn magnetosheath, respectively, as well as from the directional analysis of the interplanetary discontinuities which form the edges of these structures, We suggest that interaction of the magnetosphere with very slant solar wind discontinuities may bring various specific features to magnetospheric and ionospheric dynamics that have not been reported.

AB - We present ground-based, plasma sheet, and magnetosheath observations of two subsequent short-duration (10-20 min) increases of the postmidnight westward electrojet on November 28, 1995. Appearing: as though small (150-200 nT) substorms, they were not accompanied by any substorm expansion onset signatures. Auroral breakup, worldwide Pi2 pulsations, and the corresponding plasma sheet activity, such as fast flows, current disruption, and plasmoid generation, were all observed only at the recovery of the second electrojet increase. These convection bays were associated with the equatorward expansion of the auroras and simultaneous magnetic variations in the polar cap and middle latitudes. Growth phase signatures of the lobe field increase and tailward stretching of magnetic field were also observed in the plasma sheet. Bursty bulk flows in the plasma sheet seem to be quenched at the onset of first convection bay and did not resume until the auroral breakup which concluded the second convection bay, A point of interest of this event was the "incomplete" convection/current system with a well-developed dawn vortex in the absence of well-defined dusk vortex; instead, a complicated transient activity dominated over the afternoon-dusk local time sector. We interpret this asymmetry either in terms of the magnetopause encounter with the edge of the solar wind driver, i.e., strong southward IMF, which hits only the dawn part of the magnetosphere, or with an extremely slant interplanetary discontinuity. This unique configuration was inferred from observations of uncorrelated strong southward B-z events by the Wind and IMP 8 spacecraft in the dusk and dawn magnetosheath, respectively, as well as from the directional analysis of the interplanetary discontinuities which form the edges of these structures, We suggest that interaction of the magnetosphere with very slant solar wind discontinuities may bring various specific features to magnetospheric and ionospheric dynamics that have not been reported.

KW - SOLAR-WIND

KW - MAGNETOSPHERIC SUBSTORMS

KW - CURRENT SYSTEMS

KW - DYNAMICS

KW - PHYSICS

KW - PHASES

U2 - 10.1029/98JA01747

DO - 10.1029/98JA01747

M3 - статья

VL - 103

SP - 23593

EP - 23609

JO - Journal of Geophysical Research: Biogeosciences

JF - Journal of Geophysical Research: Biogeosciences

SN - 0148-0227

IS - A10

ER -

ID: 36633555