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A tidal wind model for 85-120 km based on CIRA-86 - A feasibility study (1991)

Fleming, E. L. ; Chandra, Sushil

In: Other Sources

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Publication Date: 2011-08-19

Description: The feasibility of deriving a climatology of the diurnal variations of the wind in the 85-120 km region from the tidal components of density, temperature and composition contained in the new COSPAR CIRA-86 is examined. The CIRA density and temperature model is employed to derive the eastward and northward pressure gradient forces that serve as the forcing functions in the coupled momentum equations. At midlatitudes, the model shows some of the general features observed in the radar tidal data, e.g., the dominant semidiurnal tide with increasing amplitude with height and clockwise (counterclockwise) rotation of the velocity vector seen in the Northern (Southern) Hemisphere.

Keywords: GEOPHYSICS

Type: Journal of Atmospheric and Terrestrial Physics (ISSN 0021-9169); 53; 425-445

Format: text

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Empirical wind model for the middle and lower atmosphere. Part 1: Local time average (1993)

Fleming, E. L. ; Hedin, A. E. ; Manson, A. H. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The HWM90 thermospheric wind model was revised in the lower thermosphere and extended into the mesosphere and lower atmosphere to provide a single analytic model for calculating zonal and meridional wind profiles representative of the climatological average for various geophysical conditions. Gradient winds from CIRA-86 plus rocket soundings, incoherent scatter radar, MF radar, and meteor radar provide the data base and are supplemented by previous data driven model summaries. Low-order spherical harmonics and Fourier series are used to describe the major variations throughout the atmosphere including latitude, annual, semiannual, and longitude (stationary wave 1). The model represents a smoothed compromise between the data sources. Although agreement between various data sources is generally good, some systematic differences are noted, particularly near the mesopause. Root mean square differences between data and model are on the order of 15 m/s in the mesosphere and 10 m/s in the stratosphere for zonal wind, and 10 m/s and 4 m/s, respectively, for meridional wind.

Keywords: GEOPHYSICS

Type: NASA-TM-104581 , REPT-93B00069 , NAS 1.15:104581

Format: application/pdf

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