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Coordinated Cluster, ground-based instrumentation and low-altitude satellite observations of transient poleward-moving events in the low and high altitude mantle regions

Coordinated Cluster, ground-based instrumentation and low-altitude satellite observations of transient poleward-moving events in the low and high altitude mantle regions
Coordinated Cluster, ground-based instrumentation and low-altitude satellite observations of transient poleward-moving events in the low and high altitude mantle regions
During the interval between 8:00–9:30 on 14 January 2001, the four Cluster spacecraft were moving from the central magnetospheric lobe, through the dusk sector mantle, on their way towards intersecting the magnetopause near 15:00 MLT and 15:00 UT. Throughout this interval, the EISCAT Svalbard Radar (ESR) at Longyearbyen observed a series of poleward-moving transient events of enhanced F-region plasma concentration ("polar cap patches"), with a repetition period of the order of 10 min. Allowing for the estimated solar wind propagation delay of 75 ( ± 5) min, the interplanetary magnetic field (IMF) had a southward component during most of the interval. The magnetic footprint of the Cluster spacecraft, mapped to the ionosphere using the Tsyganenko T96 model (with input conditions prevailing during this event), was to the east of the ESR beams. Around 09:05 UT, the DMSP-F12 satellite flew over the ESR and showed a sawtooth cusp ion dispersion signature that also extended into the electrons on the equatorward edge of the cusp, revealing a pulsed magnetopause reconnection. The consequent enhanced ionospheric flow events were imaged by the SuperDARN HF backscatter radars. The average convection patterns (derived using the AMIE technique on data from the magnetometers, the EISCAT and SuperDARN radars, and the DMSP satellites) show that the associated poleward-moving events also convected over the predicted footprint of the Cluster spacecraft. Cluster observed enhancements in the fluxes of both electrons and ions. These events were found to be essentially identical at all four spacecraft, indicating that they had a much larger spatial scale than the satellite separation of the order of 600 km. Some of the events show a correspondence between the lowest energy magnetosheath electrons detected by the PEACE instrument on Cluster (10–20 eV) and the topside ionospheric enhancements seen by the ESR (at 400–700 km). We suggest that a potential barrier at the magnetopause, which prevents the lowest energy electrons from entering the magnetosphere, is reduced when and where the boundary-normal magnetic field is enhanced and that the observed polar cap patches are produced by the consequent enhanced precipitation of the lowest energy electrons, making them and the low energy electron precipitation fossil remnants of the magnetopause reconnection rate pulses.
Magnetospheric physics (polar cap phenomena, solar wind – magnetosphere interactions, magnetosphere – ionosphere interactions)
0992-7689
1589-1612
Lockwood, M.
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Opgenoorth, H.
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van Eyken, A.P.
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Fazakerley, A.
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Bosqued, J.M.
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Denig, W.
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Hapgood, M.A.
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Wild, M.N.
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Stamper, R.
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Dunlop, M.
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Wild, J.
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Lu, G.
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Taylor, M.
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Amm, O.
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McCrae, I.W.
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Kauristie, K.
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Pulkinnen, T.
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Stromme, A.
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Prikryl, P.
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Pitout, F.
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Balogh, A.
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Reme, H.
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Behlke, R.
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Hansen, T.
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Greenwald, R.
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Provan, G.
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Eglitis, P.
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Morley, S.K.
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Alcayde, D.
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Blelly, P.L.
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Moen, J.
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Donovan, E.
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Engebretson, M.
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Lester, M.
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Waterman, J.
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Marcucci, M.F.
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Lockwood, M.
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Opgenoorth, H.
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van Eyken, A.P.
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Fazakerley, A.
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Bosqued, J.M.
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Denig, W.
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Hapgood, M.A.
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Wild, M.N.
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Stamper, R.
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Dunlop, M.
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Wild, J.
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Lu, G.
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Taylor, M.
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Amm, O.
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McCrae, I.W.
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Kauristie, K.
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Pulkinnen, T.
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Stromme, A.
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Prikryl, P.
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Pitout, F.
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Balogh, A.
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Reme, H.
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Behlke, R.
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Hansen, T.
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Greenwald, R.
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Provan, G.
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Eglitis, P.
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Morley, S.K.
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Alcayde, D.
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Blelly, P.L.
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Moen, J.
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Donovan, E.
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Engebretson, M.
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Lester, M.
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Waterman, J.
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Marcucci, M.F.
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Lockwood, M., Opgenoorth, H., van Eyken, A.P., Fazakerley, A., Bosqued, J.M., Denig, W., Hapgood, M.A., Wild, M.N., Stamper, R., Dunlop, M., Wild, J., Lu, G., Taylor, M., Amm, O., McCrae, I.W., Kauristie, K., Pulkinnen, T., Stromme, A., Prikryl, P., Pitout, F., Balogh, A., Reme, H., Behlke, R., Hansen, T., Greenwald, R., Provan, G., Eglitis, P., Morley, S.K., Alcayde, D., Blelly, P.L., Moen, J., Donovan, E., Engebretson, M., Lester, M., Waterman, J. and Marcucci, M.F. (2001) Coordinated Cluster, ground-based instrumentation and low-altitude satellite observations of transient poleward-moving events in the low and high altitude mantle regions. Annales Geophysicae, 19, 1589-1612.

Record type: Article

Abstract

During the interval between 8:00–9:30 on 14 January 2001, the four Cluster spacecraft were moving from the central magnetospheric lobe, through the dusk sector mantle, on their way towards intersecting the magnetopause near 15:00 MLT and 15:00 UT. Throughout this interval, the EISCAT Svalbard Radar (ESR) at Longyearbyen observed a series of poleward-moving transient events of enhanced F-region plasma concentration ("polar cap patches"), with a repetition period of the order of 10 min. Allowing for the estimated solar wind propagation delay of 75 ( ± 5) min, the interplanetary magnetic field (IMF) had a southward component during most of the interval. The magnetic footprint of the Cluster spacecraft, mapped to the ionosphere using the Tsyganenko T96 model (with input conditions prevailing during this event), was to the east of the ESR beams. Around 09:05 UT, the DMSP-F12 satellite flew over the ESR and showed a sawtooth cusp ion dispersion signature that also extended into the electrons on the equatorward edge of the cusp, revealing a pulsed magnetopause reconnection. The consequent enhanced ionospheric flow events were imaged by the SuperDARN HF backscatter radars. The average convection patterns (derived using the AMIE technique on data from the magnetometers, the EISCAT and SuperDARN radars, and the DMSP satellites) show that the associated poleward-moving events also convected over the predicted footprint of the Cluster spacecraft. Cluster observed enhancements in the fluxes of both electrons and ions. These events were found to be essentially identical at all four spacecraft, indicating that they had a much larger spatial scale than the satellite separation of the order of 600 km. Some of the events show a correspondence between the lowest energy magnetosheath electrons detected by the PEACE instrument on Cluster (10–20 eV) and the topside ionospheric enhancements seen by the ESR (at 400–700 km). We suggest that a potential barrier at the magnetopause, which prevents the lowest energy electrons from entering the magnetosphere, is reduced when and where the boundary-normal magnetic field is enhanced and that the observed polar cap patches are produced by the consequent enhanced precipitation of the lowest energy electrons, making them and the low energy electron precipitation fossil remnants of the magnetopause reconnection rate pulses.

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More information

Published date: 2001
Keywords: Magnetospheric physics (polar cap phenomena, solar wind – magnetosphere interactions, magnetosphere – ionosphere interactions)

Identifiers

Local EPrints ID: 9158
URI: http://eprints.soton.ac.uk/id/eprint/9158
ISSN: 0992-7689
PURE UUID: 27fd30b1-ec8b-48a2-b81c-e0387128d0bb

Catalogue record

Date deposited: 24 Sep 2004
Last modified: 08 Jan 2022 18:46

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Contributors

Author: M. Lockwood
Author: H. Opgenoorth
Author: A.P. van Eyken
Author: A. Fazakerley
Author: J.M. Bosqued
Author: W. Denig
Author: M.A. Hapgood
Author: M.N. Wild
Author: R. Stamper
Author: M. Dunlop
Author: J. Wild
Author: G. Lu
Author: M. Taylor
Author: O. Amm
Author: I.W. McCrae
Author: K. Kauristie
Author: T. Pulkinnen
Author: A. Stromme
Author: P. Prikryl
Author: F. Pitout
Author: A. Balogh
Author: H. Reme
Author: R. Behlke
Author: T. Hansen
Author: R. Greenwald
Author: G. Provan
Author: P. Eglitis
Author: S.K. Morley
Author: D. Alcayde
Author: P.L. Blelly
Author: J. Moen
Author: E. Donovan
Author: M. Engebretson
Author: M. Lester
Author: J. Waterman
Author: M.F. Marcucci

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