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Annales Geophysicae An interactive open-access journal of the European Geosciences Union
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Volume 22, issue 8
Ann. Geophys., 22, 2917-2942, 2004
https://doi.org/10.5194/angeo-22-2917-2004
© Author(s) 2004. This work is distributed under
the Creative Commons Attribution 3.0 License.
Ann. Geophys., 22, 2917-2942, 2004
https://doi.org/10.5194/angeo-22-2917-2004
© Author(s) 2004. This work is distributed under
the Creative Commons Attribution 3.0 License.

  07 Sep 2004

07 Sep 2004

Temporal-spatial structure of magnetic merging at the magnetopause inferred from 557.7-nm all-sky images

N. C. Maynard1, J. Moen2, W. J. Burke3, M. Lester4, D. M. Ober1, J. D. Scudder5, K. D. Siebert1, D. R. Weimer1, C. T. Russell6, and A. Balogh7 N. C. Maynard et al.
  • 1ATK Mission Research, Nashua, New Hampshire, USA
  • 2University of Oslo, Oslo, Norway
  • 3Air Force Research Laboratory, Hanscom Air Force Base, Massachusetts, USA
  • 4University of Leicester, Leicester, UK
  • 5Department of Physics and Astronomy, University of Iowa, Iowa City, Iowa, USA
  • 6University of California at Los Angeles, Los Angeles, CA, USA
  • 7Imperial College, Exhibition Road, London, SW7 2BW, UK

Abstract. We demonstrate that high-resolution 557.7-nm all-sky images are useful tools for investigating the spatial and temporal evolution of merging on the dayside magnetopause. Analysis of ground and satellite measurements leads us to conclude that high-latitude merging events can occur at multiple sites simultaneously and vary asynchronously on time scales of 30s to 3min. Variations of 557.7nm emissions were observed at a 10s cadence at Ny-Ålesund on 19 December 2001, while significant changes in the IMF clock angle were reaching the magnetopause. The optical patterns are consistent with a scenario in which merging occurs around the rim of the high-latitude cusp at positions dictated by the IMF clock angle. Electrons energized at merging sites represent plausible sources for 557.7nm emissions in the cusp. Polar observations at the magnetopause have directly linked enhanced fluxes of ≥0.5keV electrons with merging. Spectra of electrons responsible for some of the emissions, measured during a DMSP F15 overflight, exhibit "inverted-V" features, indicating further acceleration above the ionosphere. SuperDARN spectral width boundaries, characteristic of open-closed field line transitions, are located at the equatorward edge of the 557.7nm emissions. Optical data suggest that with IMF BY>0, the Northern Hemisphere cusp divides into three source regions. When the IMF clock angle was ~150° structured 557.7-nm emissions came from east of the 13:00 MLT meridian. At larger clock angles the emissions appeared between 12:00 and 13:00 MLT. No significant 557.7-nm emissions were detected in the prenoon MLT sector. MHD simulations corroborate our scenario, showing that with the observed large dipole-tilt and IMF clock angles, merging sites develop near the front and eastern portions of the high-altitude cusp rim in the Northern Hemisphere and near the western part of the cusp rim in the Southern Hemisphere.

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