Energy dispersion in a barotropic atmosphere

Abstract

The propagation of energy on the sphere as described by the linear barotropic vorticity equation is studied. For simple flows, the concept of group velocity is examined. Planetary‐scale vorticity anomalies exhibit a surprising lack of dispersion in a hemispheric domain. On the sphere, there is more dispersion and a significant cross‐equatorial propagation of energy. Planetary‐scale vorticity sources tend to produce an orderly downstream train of waves which exhibit a strong tilt (NE‐SW for sources in the northern hemisphere) and cross the equator. Zonally elongated sources produce an almost north‐south train of waves. For realistic zonal flows with equatorial easterlies, large‐scale transients cross the equator, but the long‐term forced response in the opposite hemisphere is small.

Comparison of the results with observations of atmospheric wave behaviour is made, and some possible implications are presented.