Fast Pairwise Conversion of Supernova Neutrinos: A Dispersion-Relation Approach

Abstract

Collective pair conversion ee xx by forward scattering, where x=μ or τ, may be generic for supernova neutrino transport. Depending on the local angular intensity of the electron lepton number carried by neutrinos, the conversion rate is "fast," i.e., of the order of 2GF(n_e-\,n_e) m2 atm/2E. We present a novel approach to understand these phenomena: A dispersion relation for the frequency and wave number (,K) of disturbances in the mean field of ex flavor coherence. Run-away solutions occur in "dispersion gaps," i.e., in "forbidden" intervals of and/or K where propagating plane waves do not exist. We stress that the actual solutions also depend on the initial and/or boundary conditions which need to be further investigated.