Some stability theorems for an abstract equation in Hilbert space with applications to linear elastodynamics

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On compressions of self-adjoint extensions of a symmetric linear relation with unequal deficiency indices

Ukrainian Mathematical Bulletin ◽

10.37069/1810-3200-2019-16-4-8 ◽

2019 ◽

Vol 16 (4) ◽

pp. 567-587

Author(s):

Vadim Mogilevskii

Keyword(s):

Hilbert Space ◽

Boundary Conditions ◽

Linear Relation ◽

Deficiency Indices ◽

Space Extension ◽

Limit Value ◽

Abstract Boundary ◽

Symmetric Linear Relation ◽

Symmetric Operators

Let $A$ be a symmetric linear relation in the Hilbert space $\gH$ with unequal deficiency indices $n_-A <n_+(A)$. A self-adjoint linear relation $\wt A\supset A$ in some Hilbert space $\wt\gH\supset \gH$ is called an (exit space) extension of $A$. We study the compressions $C (\wt A)=P_\gH\wt A\up\gH$ of extensions $\wt A=\wt A^*$. Our main result is a description of compressions $C (\wt A)$ by means of abstract boundary conditions, which are given in terms of a limit value of the Nevanlinna parameter $\tau(\l)$ from the Krein formula for generalized resolvents. We describe also all extensions $\wt A=\wt A^*$ of $A$ with the maximal symmetric compression $C (\wt A)$ and all extensions $\wt A=\wt A^*$ of the second kind in the sense of M.A. Naimark. These results generalize the recent results by A. Dijksma, H. Langer and the author obtained for symmetric operators $A$ with equal deficiency indices $n_+(A)=n_-(A)$.

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