Temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a Polar-ground magnetic conjunction in the midmorning sector

We relate measurements of temporarily varying field-aligned current systems (FACs) and their associated plasmas made by the Polar spacecraft at midmorning local times and likewise temporarily varying aurorae observed from Svalbard, Norway, when the magnetic footprint of the spacecraft passed across...

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Published in:Journal of Geophysical Research
Main Authors: Farrugia, Charlie J., Sandholt, P. E., Maynard, N. C., Torbert, Roy B., Ober, D. M.
Format: Text
Language:unknown
Published: University of New Hampshire Scholars' Repository 2003
Subjects:
Svalbard
Norway
Online Access:https://scholars.unh.edu/cmerg/248
https://doi.org/10.1029/2002JA009619
id ftuninhampshire:oai:scholars.unh.edu:cmerg-1247
record_format openpolar
spelling ftuninhampshire:oai:scholars.unh.edu:cmerg-1247 2023-05-15T18:29:53+02:00 Temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a Polar-ground magnetic conjunction in the midmorning sector Farrugia, Charlie J. Sandholt, P. E. Maynard, N. C. Torbert, Roy B. Ober, D. M. 2003-06-07T07:00:00Z https://scholars.unh.edu/cmerg/248 https://doi.org/10.1029/2002JA009619 unknown University of New Hampshire Scholars' Repository https://scholars.unh.edu/cmerg/248 https://doi.org/10.1029/2002JA009619 Coronal Mass Ejection Research Group text 2003 ftuninhampshire https://doi.org/10.1029/2002JA009619 2023-01-30T22:05:14Z We relate measurements of temporarily varying field-aligned current systems (FACs) and their associated plasmas made by the Polar spacecraft at midmorning local times and likewise temporarily varying aurorae observed from Svalbard, Norway, when the magnetic footprint of the spacecraft passed across the field-of-view of the ground instruments on 3 December 1997. We combine the in situ observations of plasma and magnetic and electric fields with meridian scanning photometry and all-sky imagery from the ground site. The interplanetary magnetic field (IMF) pointed strongly east (By ≫ 0) and generally south. Descending from ∼7.5 to ∼5.5 RE and heading south, Polar traversed a four-sheet current system: a twin-sheet cusp current system C1-C2, spanning 80.6°–77.7° invariant latitudes (ILT), and then the traditional regions 1 (R1) and 2 (R2) currents, extending from 77.7° to 73.3° ILT. A convection reversal separated the C1-C2 from the R1-R2 FACs. Currents C1 and R2 flow out of the ionosphere, while C2 and R1 flow into the ionosphere. Within C1, Polar observed six bursts of ions of typically magnetosheath energies (≤2 keV) repeating every ∼5 min, accompanied by intensified field-aligned electron beams and magnetic field depressions. Auroral data, acquired later but under very similar IMF conditions and at the same latitudes as when Polar was within C1, suggest auroral forms which are pulsed in both red and green lines with a similar period to the plasma bursts observed earlier at Polar. Within C2, at Polar, the pulsing ceased, but magnetosheath plasma was still present, albeit at diminished intensity. This was in part also a temporal change as the IMF clock angle decreased to ∼60°. Equatorward of the cusp aurora we find a mixing region of magnetosheath and magnetospheric plasmas with spectral characteristics of the boundary plasma sheet (BPS) forming the source of the R1 current. Plasma inhomogeneities and bipolar current elements embedded therein were related to discrete east-west aligned arcs located equatorward of ... Text Svalbard University of New Hampshire: Scholars Repository Svalbard Norway Journal of Geophysical Research 108 A6
institution Open Polar
collection University of New Hampshire: Scholars Repository
op_collection_id ftuninhampshire
language unknown
description We relate measurements of temporarily varying field-aligned current systems (FACs) and their associated plasmas made by the Polar spacecraft at midmorning local times and likewise temporarily varying aurorae observed from Svalbard, Norway, when the magnetic footprint of the spacecraft passed across the field-of-view of the ground instruments on 3 December 1997. We combine the in situ observations of plasma and magnetic and electric fields with meridian scanning photometry and all-sky imagery from the ground site. The interplanetary magnetic field (IMF) pointed strongly east (By ≫ 0) and generally south. Descending from ∼7.5 to ∼5.5 RE and heading south, Polar traversed a four-sheet current system: a twin-sheet cusp current system C1-C2, spanning 80.6°–77.7° invariant latitudes (ILT), and then the traditional regions 1 (R1) and 2 (R2) currents, extending from 77.7° to 73.3° ILT. A convection reversal separated the C1-C2 from the R1-R2 FACs. Currents C1 and R2 flow out of the ionosphere, while C2 and R1 flow into the ionosphere. Within C1, Polar observed six bursts of ions of typically magnetosheath energies (≤2 keV) repeating every ∼5 min, accompanied by intensified field-aligned electron beams and magnetic field depressions. Auroral data, acquired later but under very similar IMF conditions and at the same latitudes as when Polar was within C1, suggest auroral forms which are pulsed in both red and green lines with a similar period to the plasma bursts observed earlier at Polar. Within C2, at Polar, the pulsing ceased, but magnetosheath plasma was still present, albeit at diminished intensity. This was in part also a temporal change as the IMF clock angle decreased to ∼60°. Equatorward of the cusp aurora we find a mixing region of magnetosheath and magnetospheric plasmas with spectral characteristics of the boundary plasma sheet (BPS) forming the source of the R1 current. Plasma inhomogeneities and bipolar current elements embedded therein were related to discrete east-west aligned arcs located equatorward of ...
format Text
author Farrugia, Charlie J.
Sandholt, P. E.
Maynard, N. C.
Torbert, Roy B.
Ober, D. M.
spellingShingle Farrugia, Charlie J.
Sandholt, P. E.
Maynard, N. C.
Torbert, Roy B.
Ober, D. M.
Temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a Polar-ground magnetic conjunction in the midmorning sector
author_facet Farrugia, Charlie J.
Sandholt, P. E.
Maynard, N. C.
Torbert, Roy B.
Ober, D. M.
author_sort Farrugia, Charlie J.
title Temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a Polar-ground magnetic conjunction in the midmorning sector
title_short Temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a Polar-ground magnetic conjunction in the midmorning sector
title_full Temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a Polar-ground magnetic conjunction in the midmorning sector
title_fullStr Temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a Polar-ground magnetic conjunction in the midmorning sector
title_full_unstemmed Temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a Polar-ground magnetic conjunction in the midmorning sector
title_sort temporal variations in a four-sheet field-aligned current system and associated aurorae as observed during a polar-ground magnetic conjunction in the midmorning sector
publisher University of New Hampshire Scholars' Repository
publishDate 2003
url https://scholars.unh.edu/cmerg/248
https://doi.org/10.1029/2002JA009619
geographic Svalbard
Norway
geographic_facet Svalbard
Norway
genre Svalbard
genre_facet Svalbard
op_source Coronal Mass Ejection Research Group
op_relation https://scholars.unh.edu/cmerg/248
https://doi.org/10.1029/2002JA009619
op_doi https://doi.org/10.1029/2002JA009619
container_title Journal of Geophysical Research
container_volume 108
container_issue A6
_version_ 1766213311675760640

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