Laurent Marin, Hermann Schulz-Baldes
Published 2011-12-21, updated 2012-07-02Version 2
A scattering zipper is a system obtained by concatenation of scattering events with equal even number of incoming and out going channels. The associated scattering zipper operator is the unitary equivalent of Jacobi matrices with matrix entries and generalizes Blatter-Browne and Chalker-Coddington models and CMV matrices. Weyl discs are analyzed and used to prove a bijection between the set of semi-infinite scattering zipper operators and matrix valued probability measures on the unit circle. Sturm-Liouville oscillation theory is developed as a tool to calculate the spectra of finite and periodic scattering zipper operators.
Comments: New Section 9 on periodic scattering zippers; to appear in J. Spec. Theory
Gordon-type arguments in the spectral theory of one-dimensional quasicrystals
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Laplace transformations and spectral theory of two-dimensional semi-discrete and discrete hyperbolic Schroedinger operators
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