A Morse Index Theorem for Elliptic Operators on Bounded Domains |
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Authors: | Graham Cox Christopher K. R. T. Jones Jeremy L. Marzuola |
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Affiliation: | Department of Mathematics , UNC Chapel Hill , Chapel Hill , North Carolina , USA |
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Abstract: | Given a selfadjoint, elliptic operator L, one would like to know how the spectrum changes as the spatial domain Ω ? ? n is deformed. For a family of domains {Ω t } t∈[a, b] we prove that the Morse index of L on Ω a differs from the Morse index of L on Ω b by the Maslov index of a path of Lagrangian subspaces on the boundary of Ω. This is particularly useful when Ω a is a domain for which the Morse index is known, e.g. a region with very small volume. Then the Maslov index computes the difference of Morse indices for the “original” problem (on Ω b ) and the “simplified” problem (on Ω a ). This generalizes previous multi-dimensional Morse index theorems that were only available on star-shaped domains or for Dirichlet boundary conditions. We also discuss how one can compute the Maslov index using crossing forms, and present some applications to the spectral theory of Dirichlet and Neumann boundary value problems. |
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Keywords: | Domain deformation Elliptic boundary value problem Maslov index Morse index |
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