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Localized Modes of the Linear Periodic Schrödinger Operator with a Nonlocal Perturbation

2009; Society for Industrial and Applied Mathematics; Volume: 41; Issue: 5 Linguagem: Inglês

10.1137/080743366

1095-7154

Tomáš Dohnal, Michael Plum, Wolfgang Reichel,

Advanced Mathematical Modeling in Engineering

We consider the existence of localized modes corresponding to eigenvalues of the periodic Schrödinger operator $-\partial_x^2+V(x)$ with an interface. The interface is modeled by a jump either in the value or the derivative of $V(x)$ and, in general, does not correspond to a localized perturbation of the perfectly periodic operator. The periodic potentials on each side of the interface can, moreover, be different. As we show, eigenvalues can occur only in spectral gaps. We pose the eigenvalue problem as a $C^1$ gluing problem for the fundamental solutions (Bloch functions) of the second order ODEs on each side of the interface. The problem is thus reduced to finding matchings of the ratio functions $R_\pm=\frac{\psi'_\pm(0)}{\psi_\pm(0)}$, where $\psi_\pm$ are those Bloch functions that decay on the respective half-lines. These ratio functions are analyzed with the help of the Prüfer transformation. The limit values of $R_\pm$ at band edges depend on the ordering of Dirichlet and Neumann eigenvalues at gap edges. We show that the ordering can be determined in the first two gaps via variational analysis for potentials satisfying certain monotonicity conditions. Numerical computations of interface eigenvalues are presented to corroborate the analysis.