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arxiv: 1003.2538 · v4 · pith:4JLRY77Inew · submitted 2010-03-12 · 🧮 math-ph · math.AP· math.MP· math.SP

Aguilar-Balslev-Combes theorem for the Laplacian on a manifold with an axial analytic asymptotically cylindrical end

classification 🧮 math-ph math.APmath.MPmath.SP
keywords laplacianmanifoldaguilar-balslev-combesanalyticasymptoticallyaxialcomplexcylindrical
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We develop the complex scaling for a manifold with an asymptotically cylindrical end under an assumption on the analyticity of the metric with respect to the axial coordinate of the end. We allow for arbitrarily slow convergence of the metric to its limit at infinity, and prove a variant of the Aguilar-Balslev-Combes theorem for the Laplacian $\Delta$ on functions. In the case of a manifold with (noncompact) boundary it is either the Dirichlet or the Neumann Laplacian. We introduce resonances as the discrete non-real eigenvalues of non-selfadjoint operators, obtained as deformations of the Laplacian by means of the complex scaling. The resonances are identified with the poles of the resolvent matrix elements $((\Delta-\mu)^{-1}F, G)$ meromorphic continuation in $\mu$ across the essential spectrum of $\Delta$, where $F$ and $G$ are elements of an explicitly given set of analytic vectors. The Laplacian has no singular continuous spectrum, the eigenvalues can accumulate only at thresholds.

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