Study of internal gravity waves in the meteor zone
Abstract
An important component of the dynamical regime of the atmosphere at heights near 100 km are internal gravity waves (IGW) with periods from about 5 min to about 17.5 hrs which propagate from the lower atmospheric layers and are generated in the uppermost region of the atmosphere. As IGW propagate upwards, their amplitudes increase and they have a considerable effect on upper atmospheric processes: (1) they provide heat flux divergences comparable with solar heating; (2) they influence the gaseous composition and produce wave variations of the concentrations of gaseous components and emissions of the upper atmosphere; and (3) they cause considerable acceleration of the mean stream. It was concluded that the periods, wavelengths, amplitudes and velocities of IGW propagation in the meteor zone are now measured quite reliably. However, for estimating the influence of IGW on the thermal regime and the circulation of the upper atmosphere these parameters are not as important as the values of wave fluxes of energy, heat, moment and mass.
- Publication:
-
Middle Atmosphere Program, Volume 25
- Pub Date:
- August 1987
- Bibcode:
- 1987maph...25..153G
- Keywords:
-
- Gravity Waves;
- Internal Waves;
- Meteoroid Showers;
- Wave Generation;
- Wave Propagation;
- Atmospheric Circulation;
- Atmospheric Models;
- Barotropism;
- Meridional Flow;
- Wave Amplification;
- Geophysics