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Thermospheric tides at equinox: Simulations with coupled composition and auroral forcings. 2. Semidiurnal component

Journal Article · · Journal of Geophysical Research; (United States)
DOI:https://doi.org/10.1029/90JA02189· OSTI ID:5311856
 [1]; ;  [2]
  1. Dartmouth College, Hanover, NH (USA)
  2. National Center for Atmospheric Research, Boulder, CO (USA)
+ Show Author Affiliations
New simulations of semidiurnal thermospheric winds and perturbation temperatures calculated by the National Center for Atmospheric Research thermospheric general circulation model (TGCM) are presented for equinox conditions. The model now incorporates a self-consistent calculation of neutral composition and includes high-latitude energy and momentum sources associated with the aurora. The tidal waves propagating upward from the lower atmosphere are specified by wavelike distributions of the geopotential at the model lower boundary; the boundary geopotential is related to the other model fields through Hough mode tidal functions. The specification of the wave amplitudes and phases is based on lower atmosphere model predictions and thus represents the coupling between the upper and lower atmosphere in a more physically meaningful manner than previous calculations. The revised TGCM calculations at geographic longitude 75 {degree} W are compared with observational data at low, middle, and high latitudes. In general, the agreement is reasonable, given the limited data available. The predicted solar cycle variation of the semidiurnal tides is consistent with previous works: the temperatures respond more strongly than the winds, and the solar cycle effects are most pronounced in the upper thermosphere. The lower thermosphere is dominated by the upward propagating waves from the lower atmosphere, with little contribution from solar forcing. These upward propagating waves are damped at lower altitudes as solar forcing increases. The effects of coupled composition and auroral forcings on the semidiurnal tidal components are investigated. Both processes alter the simulated solar-driven tidal fields compared to calculations which neglected these processes: amplitudes may double or triple in restricted altitude and latitude regions, while the times of maxima may shift by a few hours.
OSTI ID:
5311856
Journal Information:
Journal of Geophysical Research; (United States), Journal Name: Journal of Geophysical Research; (United States) Vol. 96:A3; ISSN 0148-0227; ISSN JGREA
Country of Publication:
United States
Language:
English

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Related Subjects

640200* -- Atmospheric Physics
71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
AURORAE
CHEMICAL COMPOSITION
COMPARATIVE EVALUATIONS
COMPUTERIZED SIMULATION
DYNAMICS
EARTH ATMOSPHERE
ELECTRON DENSITY
ENERGY TRANSFER
EVALUATION
GENERAL CIRCULATION MODELS
MATHEMATICAL MODELS
MECHANICS
MODIFICATIONS
RADIATIONS
SIMULATION
SOLAR CYCLE
SOLAR RADIATION
STELLAR RADIATION
THERMOSPHERE
WAVE PROPAGATION
WIND