On linear instability of solitary waves for the nonlinear Dirac equation

Abstract

We consider the nonlinear Dirac equation, also known as the Soler model: i t=-iα · ∇ +m β -f( β ) β , (x,t)∈CN, x∈Rn, n 3, f∈ C 2(), where αj, j = 1,...,n, and β are N × N Hermitian matrices which satisfy αj2=β2=IN, αj β+β αj=0, αj αk + αk αj =2 δjk IN. We study the spectral stability of solitary wave solutions φ(x)e-iω t. We study the point spectrum of linearizations at solitary waves that bifurcate from NLS solitary waves in the limit ω m, proving that if k>2/n, then one positive and one negative eigenvalue are present in the spectrum of the linearizations at these solitary waves with ω sufficiently close to m, so that these solitary waves are linearly unstable. The approach is based on applying the Rayleigh--Schroedinger perturbation theory to the nonrelativistic limit of the equation. The results are in formal agreement with the Vakhitov--Kolokolov stability criterion.