Parallel electric field-induced instability in the magnetospheric ion-electron plasma

Physics

Scientific paper

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Circular Polarization, Electric Fields, Electromagnetic Wave Transmission, Magnetohydrodynamic Stability, Planetary Ionospheres, Planetary Magnetospheres, Plasma-Electromagnetic Interaction, Plasmas (Physics), Very Low Frequencies, Whistlers, Anisotropy, Planetary Magnetic Fields, Velocity Distribution

Scientific paper

A complete dispersion relation for a whistler mode wave propagation in an anisotropic warm ion-electron magnetoplasma in the presence of parallel electric field using the dispersion relation for a circularly polarized wave has been derived. The dispersion relation includes the effect of anisotropy for the ion and electron velocity distribution functions. The growth rate of electron-ion cyclotron waves for different plasma parameters observed at L = 6.6 RE has been computed and the results have been discussed in detail in the light of the observed features of very low frequency (VLF) emissions and whistlers. The role of the combination of ion-cyclotron and whistler mode electromagnetic wave propagation along the magnetic field in an anisotropic Maxwellian weakly-ionized magnetoplasma has been studied.

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