Physics – Plasma Physics
Scientific paper
Nov 2006
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006jgra..11111224g&link_type=abstract
Journal of Geophysical Research, Volume 111, Issue A11, CiteID A11224
Physics
Plasma Physics
19
Space Plasma Physics: Kinetic Waves And Instabilities, Magnetospheric Physics: Plasma Waves And Instabilities (2471), Magnetospheric Physics: Magnetic Reconnection (7526, 7835), Space Plasma Physics: Magnetic Reconnection (2723, 7526)
Scientific paper
A collisionless, homogeneous plasma in which the electron velocity distribution is a bi-Maxwellian with T$\perp$e > T$\parallel$e, where the directional subscripts refer to directions relative to the background magnetic field Bo, can support the growth of two distinct instabilities. Linear dispersion theory predicts that the whistler anisotropy instability is excited with maximum growth rate γm at k × Bo = 0 and real frequency ωr greater than the proton cyclotron frequency, whereas the electron mirror instability is excited at propagation oblique to Bo and zero real frequency. In an unmagnetized plasma with a similarly anisotropic electron distribution the electron Weibel instability may be excited with zero real frequency and maximum growth rate in the direction of the minimum temperature. Here linear theory is used to compare dispersion and threshold properties of these three growing modes. For 0.10 <= β$\parallel$e <= 1000, the whistler has a larger γm and a smaller anisotropy threshold than the electron mirror, so that the former mode should dominate in homogeneous plasmas for most physical values of electron β. Threshold conditions describing electron temperature anisotropies and parallel wave numbers at given maximum growth rates are presented for each instability.
Gary Peter S.
Karimabadi Homa
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