Damping of transversal plasma-electron oscillations and waves in low-collision electron-ion plasmas

Abstract

Previously developed method for finding asymptotic solutions of Vlasov equations using two-dimensional (in coordinate x and time t) Laplace transform is here applied to consider transversal oscillations and waves in low-collision quasi-neutral (ni ne) Maxwellian electron-ion plasmas. We obtain two branches of electron waves: the ubiquitous one of high-frequency and high-velocity oscillations and the unusual low-velocity one. Taking into account Coulomb collisions in the limit me << mi, vi << ve, and Te me << Ti mi results in expressions for transversal plasma-electron oscillation/wave decrements with a damping of the low-velocity electron branch ni1/3/ve4/3, where ni is the ion density and ve is the mean electron velocity. It ought to rehabilitate Vlasov principal value prescription for relevant integrals, but to supplement it with representation of an asymptotical solution as a sum of exponents (not a single one). "Non-damping" kinematical waves in low-collision plasma transform in the damping ones at reasonably chosen iteration process.

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