On gap properties for the linearized 1D Dirac--Soler model

Abstract

We study spectral properties of the Dirac operator L0 arising as the upper-right off-diagonal block in the linearization around standing wave solutions of the one-dimensional Soler model with power nonlinearity f(s)=s|s|p-1, p>0. Our main results concern the so-called gap property: we show that if p ≥ 1, then the only eigenvalues of L0 are its ground state energies, -2ω and 0. In contrast, for p<1, additional eigenvalues appear from the thresholds of the essential spectrum. Furthermore, we prove that the thresholds never admit eigenvalues and that they have at most one resonance.

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