Longitudinal Ion Oscillations in a Hot Plasma

Abstract

Linearized, longitudinal waves in a hot plasma include, besides the familiar electron plasma oscillations, in which the frequency ω is of order ω_p = (4πne²/m)^½, also ion plasma oscillations with ω ≈ ω_p(m/M)^½. The properties of the latter are explored using a Vlasov equation description of the plasma. For equal ion and electron temperatures, T_e = T_i, there exists a discrete sequence of ion oscillations, but all are strongly damped, i.e., have ‐Im ω/Re ω ⪞ 0.5, and hence are not likely to be observable. The ratio Im ω/Re ω can be made to approach zero (facilitating detection of the waves) by either increasing T_e/T_i or by producing a current flow in the plasma. In the latter case, Im ω can even be made positive (corresponding to growing waves), the current required for this being smaller the larger the value of T_e/T_i. This growing wave is just the familiar two‐stream instability which is thus seen to be an unstable ion oscillation. It is also noteworthy that the ion oscillations, which for small k have the properties usually associated with an acoustic wave (longitudinal polarization, ω ∝ k), are obtained using a formalism which is sometimes designated as ``collisionless.''