Maximal nonnegative and $\theta$-accretive extensions of a positive definite linear relation

Authors

  • O.G. Storozh Ivan Franko Lviv National University, 1 Universytetska str., 79000, Lviv, Ukraine
https://doi.org/10.15330/cmp.12.2.289-296

Keywords:

Hilbert space, relation, operator, accretive, extension, boundary value space
Published online: 2020-10-18

Abstract

Let $L_{0}$ be a closed linear positive definite relation ("multivalued operator") in a complex Hilbert space. Using the methods of the extension theory of linear transformations in a Hilbert space, in the terms of so called boundary value spaces (boundary triplets), i.e. in the form that in the case of differential operators leads immediately to boundary conditions, the general forms of a maximal nonnegative, and of a proper maximal $\theta$-accretive extension of the initial relation $L_{0}$ are established.

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How to Cite
(1)
Storozh, O. Maximal Nonnegative and $\theta$-Accretive Extensions of a Positive Definite Linear Relation. Carpathian Math. Publ. 2020, 12, 289-296.