Collective Modes in Neutrino `Beam' Electron-Positron Plasma Interactions

Abstract

We derive semiclassical neutrino-electron transport equations in the collisionless (Vlasov) limit from the coupled Dirac equations, incorporating the charged and neutral weak current-current as well as electromagnetic interactions. A corresponding linear response theory is derived. In particular, we calculate the response functions for a variety of beam-plasma geometries, which are of interest in a supernova scenario. We apply this to the study of plasmons and to a new class of collective pharon resonance modes, which are characterized by ω < q. We find that the growth rates of the unstable modes correspond to a strongly temperature ( T2Te3) and linearly momentum dependent e-folding length of about 1010 km under typical conditions for Type II supernovae. This appears to rule out such long-wavelength collective modes as an efficient means of depositing neutrino energy into the plasma sphere.

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