Lower-hybrid instabilities driven by an ion velocity ring
- 1 December 1985
- journal article
- research article
- Published by Cambridge University Press (CUP) in Journal of Plasma Physics
- Vol. 34 (3) , 445-465
- https://doi.org/10.1017/s0022377800003007
Abstract
The lower-hybrid instabilities in high-beta (ratio of plasma to magnetic pressure) plasmas driven by ring-ion distributions in velocity space are investigated. A dispersion equation including electromagnetic effects is derived. In the low-beta limit, analytic expressions are obtained which illuminate the physical nature of the instabilities. The complete dispersion equation is solved numerically as a function of ring speed and plasma beta for several types of ring distribution. Electromagnetic effects are important for relatively energetic rings even in the low-beta regime, suppressing growth rates and shifting the angle of propagation to more oblique angles. Stabilization by thermal effects is also discussed. Application of these results to the Earth's bow shock, AMPTE, comets and solar flares is suggested.Keywords
This publication has 35 references indexed in Scilit:
- Instabilities excited by an energetic ion beam and electron temperature anisotropy in tandem mirrorsPhysics of Fluids, 1985
- Microinstabilities associated with a high Mach number, perpendicular bow shockSpace Science Reviews, 1984
- A kinetic cross-field streaming instabilityPhysics of Fluids, 1983
- Flute mode waves near ωLH excited by ion rings in velocity spaceGeophysical Research Letters, 1982
- The role of the critical ionization velocity phenomena in the production of inner coma cometary plasmaPlanetary and Space Science, 1982
- Lower hybrid acceleration and ion evolution in the suprauroral regionGeophysical Research Letters, 1981
- Plasma waves associated with energetic particles streaming into the solar wind from the Earth's bow shockJournal of Geophysical Research, 1981
- The distribution of ion beams and conics below 8000 kmJournal of Geophysical Research, 1981
- Anomalous Slowing of a Perpendicularly Injected Ion Beam in Both Quasilinear and Trapping RegimesPhysical Review Letters, 1977
- Perpendicularly Propagating Plasma Cyclotron Instabilities Simulated with a One-Dimensional Computer ModelPhysics of Fluids, 1970