VHF radar observation of gravity wave critical layers in the mid-latitude summer mesopause region

Details VHF radar observation of gravity wave critical layers in the mid-latitude summer mesopause region VHF radar observation of gravity wave critical layers in the mid-latitude summer mesopause region

Apr 1991

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1991georl..18..697y&link_type=abstract

Geophysical Research Letters (ISSN 0094-8276), vol. 18, April 1991, p. 697-700.

Physics

5

Gravity Waves, Mesopause, Midlatitude Atmosphere, Radar Echoes, Radar Tracking, Neutral Gases, Summer, Very High Frequencies, Wind Velocity

Scientific paper

Observations with the SOUSY VHF Radar in the mesopause region during summer 1989 show layers of strong echo intensity and wind speeds increasing with height. Occasionally, quasi-monochromatic internal gravity waves occur in the bottom side of the echo layer and vanish in the height interval around the echo intensity maximum which tends to increase with increasing wave amplitude. The data analysis can be performed using a Boussinesq and a WKB approximation. It shows that the horizontal phase trace velocity of the observed gravity waves is equal to the background wind velocity at the height of the echo intensity maximum. The observations thus represent nonlinear gravity wave-critical level encounters producing strong turbulence in the neutral gas. But the estimated energy dissipation rates are too small to produce neutral gas turbulence at scales equal to half the radar wavelength yielding an additional indication for a yet unidentified mechanism generating small-scale structures in the electron gas.

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