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Huba et al. 1992
Huba, J.D., Chen, J. and Anderson, R.R. (1992). Electrostatic turbulence in the Earth's central plasma sheet produced by multiple-ring ion distributions. Journal of Geophysical Research 97: doi: 10.1029/91JA02582. issn: 0148-0227.

A mechanism to generate a broad spectrum of electrostatic turbulence in the quiet time central plasma sheet (CPS) plasma is discussed. We show theoretically that multiple-ring ion distributions can generate short-wavelength (k&lgr;de≲1), electrostatic turbulence with frequencies &ohgr;≲kVj, where Vj is the velocity of the jth ring. Using a set of parameters from measurements made in the CPS, we find that electrostatic turbulence can be generated with wavenumbers 10-2k&lgr;de≲1.0, and with real frequencies in the range 00.01 over a broad range of angles relative to the magnetic field (5¿<&thgr;≤90¿). The fastest growing modes are caused by an ion ring drift instability and occur for nearly parallel propagating modes (5¿<&thgr;<10¿) with &ohgr;r≲&ohgr;pi at wavelengths comparable to the electron Debye length. We also find that lower hybrid waves and electron cyclotron waves can be excited for nearly perpendicular propagating modes (&thgr;≂90¿). We compare these theoretical results with wave data from ISEE 1 using an ion distribution function exhibiting multiple-ring structures observed at the same time. The theoretical results in the linear regime are found to be consistent with the wave data. Finally, we discuss these results in relation to nonlinear particle dynamics in the CPS which can generate the multiring ion distributions. ¿ American Geophysical Union 1992

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Abstract

Keywords
Magnetospheric Physics, Plasma waves and instabilities, Magnetospheric Physics, Plasma sheet, Magnetospheric Physics, Magnetotail, Space Plasma Physics, Waves and instabilities
Journal
Journal of Geophysical Research
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Publisher
American Geophysical Union
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