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Resonances of a λ-rational Sturm–Liouville problem

Published online by Cambridge University Press:  12 July 2007

Matthias Langer
Affiliation:
Department of Analysis and Technical Mathematics, Vienna University of Technology, Wiedner Hauptstrasse 8-10/114, A-1040 Wien, Austria ([email protected])

Abstract

We consider a family of self-adjoint 2 × 2-block operator matrices Ãϑ in the space L2(0, 1) ⊕ L2(0, 1), depending on the real parameter ϑ. If Ã0 has an eigenvalue that is embedded in the essential spectrum, then it is shown that for ϑ ≠ 0 this eigenvalue in general disappears, but the resolvent of Ãϑ has a pole on the unphysical sheet of the Riemann surface. Such a pole is called a resonance pole. The unphysical sheet arises from analytic continuation from the upper half-plane ℂ+ across the essential spectrum. Furthermore, the asymptotic behaviour of this resonance pole for small ϑ is investigated. The results are proved by considering a certain λ-rational Sturm-Liouville problem and its Titchmarsh–Weyl coefficient.

Type
Research Article
Copyright
Copyright © Royal Society of Edinburgh 2001

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