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JOURNAL OF GEOPHYSICAL RESEARCH,
VOL. 109,
A01310,
doi:10.1029/2002JA009673,
2004
Properties of lower hybrid solitary structures: A comparison between space observations, a laboratory experiment, and the
cold homogeneous plasma dispersion relation
P. W. Schuck
Plasma Physics Division, United States Naval Research Laboratory, Washington, DC, USA
J. W. Bonnell
Space Sciences Laboratory, University of California, Berkeley, Berkeley, California, USA
J.-L. Pinçon
Laboratoire de Physique et Chimie de l'Environnement, CNRS, Orleans, France
Abstract
Lower hybrid solitary structures have been observed by sounding rockets in the auroral ionosphere for over a decade and a
half. Surprisingly, few laboratory experiments have attempted to reproduce this interesting phenomena. Recently,
Rosenberg and Gekelman [2001]
investigated the interaction between fluctuations near the lower hybrid resonance and field-aligned density striations using
the Large Plasma Device at the University of California, Los Angeles. The laboratory measurements of electromagnetic fluctuations
localized in a plasma density gradient are new and interesting. This experiment represents another in a series of laboratory
investigations that use predictions of the cold homogeneous plasma dispersion to interpret observations of lower hybrid fluctuations
interacting with a zero-order plasma density gradient [
Bamber et al., 1994
,
1995;
Rosenberg and Gekelman, 1998
]. This experiment is also the first attempt to directly compare laboratory phase velocity estimates with interferometric
electric field measurements of lower hybrid solitary structures by the AMICIST, TOPAZ III and PHAZE II sounding rockets [
Pinçon et al., 1997
;
Schuck et al., 1998
;
Bonnell et al., 1998
]. This paper compares the laboratory and space measurements and concludes that they represent completely different phenomena.
Furthermore, significant discrepancies between the predictions of the cold homogeneous plasma dispersion relation and the
laboratory observations are presented. We speculate that these discrepancies arise because plasma density gradients, essential
to description of the laboratory experiment, are neglected in the cold homogeneous plasma dispersion relation.
Received 6
September
2002;
accepted 16
May
2003;
published 30
January
2004.
Index Terms: 2487 Ionosphere: Wave propagation (6934); 2471 Ionosphere: Plasma waves and instabilities; 6924 Radio Science: Interferometry; 7831 Space Plasma Physics: Laboratory studies.
Read Full Article (file size: 382366 bytes) Cited by
Citation: Schuck, P. W., J. W. Bonnell, and J.-L. Pinçon
(2004),
Properties of lower hybrid solitary structures: A comparison between space observations, a laboratory experiment, and the
cold homogeneous plasma dispersion relation,
J. Geophys. Res.,
109,
A01310,
doi:10.1029/2002JA009673.
Copyright 2004 by the American Geophysical Union.
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