On a new class of reproducing kernel spaces and a new generalization of the Iohvidov laws

Daniel Alpay; Harry Dym

doi:10.1016/0024-3795(93)90339-P

On a new class of reproducing kernel spaces and a new generalization of the Iohvidov laws

Daniel Alpay, Harry Dym

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

28 Scopus citations

Abstract

A new class of finite dimensional reproducing kernel spaces of m × 1 vector valued analytic functions on a fairly general domain Ω₊ is introduced. The reproducing kernels of these spaces have a special form which is based on an m × m matrix valued function Θ, which is J unitary on the boundary of Ω₊. Every invertible Hermitian matrix can be interpreted as the Gram matrix of a suitably chosen basis in such a space, where m is equal to the appropriately defined displacement rank of the given matrix. Orthogonal decompositions of the space are developed in terms of Schur complements of the matrix and factorizations of the Θ, much as in the classical cases wherein Ω₊ is either the unit disc or the half plane. Finally, a new generalization of the Iohvidov laws (which extends earlier generalizations by the same authors) is deduced as an application of the theory.

Original language	English
Pages (from-to)	109-183
Number of pages	75
Journal	Linear Algebra and Its Applications
Volume	178
Issue number	C
DOIs	https://doi.org/10.1016/0024-3795(93)90339-P
State	Published - 1 Jan 1993

ASJC Scopus subject areas

Algebra and Number Theory
Numerical Analysis
Geometry and Topology
Discrete Mathematics and Combinatorics

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AB - A new class of finite dimensional reproducing kernel spaces of m × 1 vector valued analytic functions on a fairly general domain Ω+ is introduced. The reproducing kernels of these spaces have a special form which is based on an m × m matrix valued function Θ, which is J unitary on the boundary of Ω+. Every invertible Hermitian matrix can be interpreted as the Gram matrix of a suitably chosen basis in such a space, where m is equal to the appropriately defined displacement rank of the given matrix. Orthogonal decompositions of the space are developed in terms of Schur complements of the matrix and factorizations of the Θ, much as in the classical cases wherein Ω+ is either the unit disc or the half plane. Finally, a new generalization of the Iohvidov laws (which extends earlier generalizations by the same authors) is deduced as an application of the theory.

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On a new class of reproducing kernel spaces and a new generalization of the Iohvidov laws

Abstract

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