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Landau damping of auroral hissAuroral hiss is observed to propagate over distances comparable to an Earth radius from its source in the auroral oval. The role of Landau damping is investigated for upward propagating auroral hiss. By using a ray tracing code and a simplified model of the distribution function, the effect of Landau damping is calculated for auroral hiss propagation through the environment around the auroral oval. Landau damping is found to be the likely mechanism for explaining some of the one-sided auroral hiss funnels observed by Dynamics Explorer 1. It is also found that Landau damping puts a lower limit on the wavelength of auroral hiss. Poleward of the auroral oval, Landau damping is found in a typical case to limit omega/k(sub parallel) to values of 3.4 x 10(exp 4) km/s or greater, corresponding to resonance energies of 3.2 keV or greater and wavelengths of 2 km or greater. For equatorward propagation, omega/k(sub parallel) is limited to values greater than 6.8 x 10(exp 4) km/s, corresponding to resonance energies greater than 13 keV and wavelengths greater than 3 km. Independent estimates based on measured ratios of the magnetic to electric field intensity also show that omega/k(sub parallel) corresponds to resonance energies greater than 1 keV and wavelengths greater than 1 km. These results lead to the difficulty that upgoing electron beams sufficiently energetic to directly generate auroral hiss of the inferred wavelength are not usually observed. A partial transmission mechanism utilizing density discontinuities oblique to the magnetic field is proposed for converting auroral hiss to wavelengths long enough to avoid damping of the wave over long distances. Numerous reflections of the wave in an upwardly flared density cavity could convert waves to significantly increased wavelengths and resonance velocities.
Document ID
19950037042
Acquisition Source
Legacy CDMS
Document Type
Reprint (Version printed in journal)
External Source(s)
Authors
Morgan, D. D.
(University of Iowa, Iowa City, IA United States)
Gurnett, D. A.
(University of Iowa, Iowa City, IA United States)
Menietti, J. D.
(University of Iowa, Iowa City, IA United States)
Winningham, J. D.
(Southwest Research Institute, San Antonio, TX United States)
Burch, J. L.
(Southwest Research Institute, San Antonio, TX United States)
Date Acquired
August 16, 2013
Publication Date
February 1, 1994
Publication Information
Publication: Journal of Geophysical Research
Volume: 99
Issue: A2
ISSN: 0148-0227
Subject Category
Geophysics
Accession Number
95A68641
Funding Number(s)
CONTRACT_GRANT: NAS5-33031
CONTRACT_GRANT: NAS5-33030
CONTRACT_GRANT: NAG5-310
Distribution Limits
Public
Copyright
Other

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