On the kinetic instabilities of uniform magnetized plasmas with generalized loss-cone distribution functions

L. Gomberoff; S. Cuperman

doi:10.1017/S0022377800022972

Abstract

A general proof is given that in uniform magnetized plasmas described by generalized loss-cone distribution functions (loss-cone index l, thermal velocity α∥, and perpendicular spread α⊥), electromagnetic, electrostatic, or coupled-mode instabilities are insensitive to the separate values of l and (α⊥/α∥); they depend rather, on the effective thermal anisotropy Aeff ≡ (T⊥/T∥)eff-1, where (T⊥/T∥)eff ≡ (l + 1) (α2⊥/α2∥). In the case of parallel propagation this statement is limited only by the linearization assumption; in the oblique propagation case, the additional condition λ⊥/rL ≫ 1 is required (λ⊥ = 1/k⊥, where k⊥ is the wave vector perpendicular to the external magnetic field, and rL is the Larmor radius). Thus, dispersion relations and their solutions obtained by using simple bi-Maxwellian distribution functions can be used directly for the complex case of generalized loss-cone distribution functions by simply replacing the anisotropy factor, A ≡α2⊥/α2∥-1, by Aeff defined above. This result explains earlier conclusions that the growth rate of the whistler instability is independent of the explicit value of the loss-cone index l, for a given thermal anisotropy.

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Article contents

On the kinetic instabilities of uniform magnetized plasmas with generalized loss-cone distribution functions

Abstract

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

On the kinetic instabilities of uniform magnetized plasmas with generalized loss-cone distribution functions

Abstract

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References

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