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Title: Short-wavelength modes on expanding plasma clouds

Journal Article · · J. Geophys. Res.; (United States)

It is proposed that the short-wavelength (less than an ion gyroradius) flute modes observed on the surface of expanding plasma clouds, such as the Active Magnetospheric Particle Tracer Explorers (AMPTE) barium releases in the magnetotail, can be explained in terms of the lower hybrid drift instability, which in its general form includes an electron-ion drift induced by the deceleration of the plasma across a magnetic field. Similar types of structure are also seen in laser and theta pinch experiments and in recent simulations modeling these phenomena. Analytical and numerical solutions of the linear dispersion relation are given for a number of parameters. The linear theory reproduces the growth rate scaling of Hassam and Huba in the long-wavelength limit and indicates that maximum growth occurs at shorter wavelengths. The growth of the modes is illustrated by particle simulations showing that the instability is excited at early times, remains locked in at a fixed mode number, and because it continues to be driven by the deceleration, grows to amplitudes far larger than expected from usual ion trapping arguments. Issues related to the linear mode structure and the nonlinear evolution of the instability in the context of AMPTE are also discussed. copyright American Geophysical Union 1988

Research Organization:
Los Alamos National Laboratory, Los Alamos, New Mexico
OSTI ID:
5229212
Journal Information:
J. Geophys. Res.; (United States), Vol. 93:A4
Country of Publication:
United States
Language:
English

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Related Subjects

71 CLASSICAL AND QUANTUM MECHANICS
GENERAL PHYSICS
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
MAGNETOTAIL
DRIFT INSTABILITY
PLASMA WAVES
BARIUM IONS
DISPERSION RELATIONS
ELECTRON DENSITY
ENERGY SPECTRA
HYBRID RESONANCE
PLASMA SIMULATION
TRAPPING
CHARGED PARTICLES
EARTH ATMOSPHERE
EARTH MAGNETOSPHERE
INSTABILITY
IONS
PLASMA INSTABILITY
PLASMA MICROINSTABILITIES
RESONANCE
SIMULATION
SPECTRA
640201* - Atmospheric Physics- Auroral
Ionospheric
& Magetospheric Phenomena
700107 - Fusion Energy- Plasma Research- Instabilities