Accession Number:

ADA202800

Title:

The Role of Hydromagnetic Waves in the Magnetosphere and the Ionosphere

Descriptive Note:

Final rept. 1 Feb 1985-31 Jan 1988

Corporate Author:

POLYTECHNIC UNIV FARMINGDALE NY WEBER RESEARCH INST

Personal Author(s):

Report Date:

1988-05-01

Pagination or Media Count:

121.0

Abstract:

The topics of investigation are divided into four general categories a cavity modes of the magnetosphere resulting in the discrete spectrum of the resonant ultralow frequency waves b a hydromagnetic code for the numerical study of the coupling of hydromagnetic waves in the dipole model of the magnetosphere a theoretical model developed for explaining the phenomenon of plasma line over shoot observed in the ionospheric HF heating experiments and thermal flamentation instability as the mechanism for generation of large scale field aligned ionospheric irregularities. For the first two topics, the hydromagnetic wave equations are analyzed analytically in cylindrical model of the magnetosphere and numerically in dipole model of the magnetosphere, respectively. While the steady state eigenvalue problem is studied in the first topic, the second topic is generalized to the boundary value problem considering the coupling between hydromagnetic waves in the realistic geometry of the magnetosphere. For the third topic, a nonlinear turbulent theory resonance instability excited by a powerful high frequency in the ionosphere. For the last topic, the thermal nonlinearity gives rise to the mode-mode coupling threshold field and the growth rate of the instability are derived.

Subject Categories:

  • Atmospheric Physics

Distribution Statement:

APPROVED FOR PUBLIC RELEASE