Computer Science
Scientific paper
Nov 1989
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989p%26ss...37.1367y&link_type=abstract
Planetary and Space Science (ISSN 0032-0633), vol. 37, Nov. 1989, p. 1367-1383.
Computer Science
66
Auroral Zones, Cavity Resonators, Geomagnetic Pulsations, Midlatitude Atmosphere, Plasmasphere, Spectral Methods, Geomagnetic Latitude, Magnetohydrodynamic Waves, Surface Waves
Scientific paper
An examination has been made of the phase and spectral power of mid-latitude Pi2 pulsations measured on a ground array. The power spectra of pulsations observed on three longitudinally-separated ground observatories show constant frequency spectral peaks over 5-1/2 h of MLT. Apparent longitudinal frequency variations appear to arise from changes in the relative sizes of spectral peaks, not in the frequencies of the peaks themselves. This behavior is not that expected from a surface wave on the plasmapause. Consideration of the phase and power along a meridian shows 180 deg H-component phase shifts seemingly associated with the plasmapause. One or more spectral peak amplitude enhancements are often found equatorward of this position. This behavior is compared with two plasmaspheric cavity resonance models; period estimates are obtained from a time-of-flight model and antinode positions are estimated from a two-dimensional Cartesian plasmasphere model. It is concluded that a plasmaspheric cavity resonance is the most likely mechanism for the mid-latitude Pi2 secondary amplitude maximum.
Orr Daniel
Yeoman Timothy K.
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