Spectral theory of the invariant Laplacian on the disk and the sphere – a complex analysis approach
Copyright policy )Spectral theory of the invariant Laplacian on the disk and the sphere – a complex analysis approach
AbstractThe central theme of this paper is the holomorphic spectral theory of the canonical Laplace operator of the complement of the “complexified unit circle” $\{(z,w) \in \widehat {{\mathbb C}}^2 \colon z \cdot w = 1\}$ . We start by singling out a distinguished set of holomorphic eigenfunctions on the bidisk in terms of hypergeometric ${}_2F_1$ functions and prove that they provide a spectral decomposition of every holomorphic eigenfunction on the bidisk. As a second step, we identify the maximal domains of definition of these eigenfunctions and show that these maximal domains naturally determine the fine structure of the eigenspaces. Our main result gives an intrinsic classification of all closed Möbius invariant subspaces of eigenspaces of the canonical Laplacian of $\Omega $ . Generalizing foundational prior work of Helgason and Rudin, this provides a unifying complex analytic framework for the real-analytic eigenvalue theories of both the hyperbolic and spherical Laplace operators on the open unit disk resp. the Riemann sphere and, in particular, shows how they are interrelated with one another.
- University of Würzburg Germany
ddc:510, Laplace operator, Helmholtz equation (reduced wave equation), Poisson equation, Möbius invariant subspaces of eigenspaces, Mathematics - Complex Variables, Completeness of eigenfunctions and eigenfunction expansions in context of PDEs, Laplacian on the complement of the complexified unit circle, FOS: Physical sciences, Special domains (Reinhardt, Hartogs, circular, tube, etc.) in \(\mathbb{C}^n\) and complex manifolds, Mathematical Physics (math-ph), holomorphic eigenfunctions, Functional Analysis (math.FA), Mathematics - Functional Analysis, FOS: Mathematics, Primary 30F45, 30H50, 35P10, Secondary 30B40, 53A55, Complex Variables (math.CV), Mathematical Physics
ddc:510, Laplace operator, Helmholtz equation (reduced wave equation), Poisson equation, Möbius invariant subspaces of eigenspaces, Mathematics - Complex Variables, Completeness of eigenfunctions and eigenfunction expansions in context of PDEs, Laplacian on the complement of the complexified unit circle, FOS: Physical sciences, Special domains (Reinhardt, Hartogs, circular, tube, etc.) in \(\mathbb{C}^n\) and complex manifolds, Mathematical Physics (math-ph), holomorphic eigenfunctions, Functional Analysis (math.FA), Mathematics - Functional Analysis, FOS: Mathematics, Primary 30F45, 30H50, 35P10, Secondary 30B40, 53A55, Complex Variables (math.CV), Mathematical Physics
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