Ion temperature anisotropy limitation in high beta plasmas | Zendy

Earl Scime | Zendy; Paul Keiter | Zendy; M. M. Balkey | Zendy; Robert Boivin | Zendy; J. L. Kline | Zendy; Melanie Blackburn | Zendy; S. Peter Gary | Zendy

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Ion temperature anisotropy limitation in high beta plasmas

Author(s) -

Earl Scime,

Paul Keiter,

M. M. Balkey,

Robert Boivin,

J. L. Kline,

Melanie Blackburn,

S. Peter Gary

Publication year - 2000

Publication title -

physics of plasmas

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.75

H-Index - 160

eISSN - 1089-7674

pISSN - 1070-664X

DOI - 10.1063/1.874036

Subject(s) - physics , anisotropy , cyclotron , ion , instability , atomic physics , magnetosheath , plasma , beta (programming language) , computational physics , condensed matter physics , magnetosphere , nuclear physics , optics , magnetopause , mechanics , quantum mechanics , computer science , programming language

Measurements of parallel and perpendicular ion temperatures in the Large Experiment on Instabilities and Anisotropies (LEIA) space simulation chamber display an inverse correlation between the upper bound on the ion temperature anisotropy and the parallel ion beta (β=8πnkT/B2). Fluctuation measurements indicate the presence of low frequency, transverse, electromagnetic waves with wave numbers and frequencies that are consistent with predictions for Alfven Ion Cyclotron instabilities. These observations are also consistent with in situ spacecraft measurements in the Earth’s magnetosheath and with a theoretical/computational model that predicts that such an upper bound on the ion temperature anisotropy is imposed by scattering from enhanced fluctuations due to growth of the Alfven ion cyclotron instability.

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