Multi-interval linear ordinary boundary value problems and complex symplectic algebra (Q2718318)

The memoir begins with reviewing the role played by the Glazman-Krein-Naimark (GKN) theorem in relating the self-adjoint operators generated in the boundary value theory for quasi-differential systems. They are defined on a single interval of the real line \(\mathbb{R}\), to symplectic spaces. Similarly the same setup for the generalizations to quasi-differential systems, which are defined on \(\mathbb{R}\) for multi-interval problems.NEWLINENEWLINENEWLINEFollowing Everitt-Zettl the authors define general multi-interval quasi-differential systems,\break \(\{I_r, M_r,\omega_r:r\in \Omega\}\) where \(\Omega\) is general but non-empty index set that may be finite, denumerable or non-denumerable. They often term the problem a ``multi-interval system''. Such a multi-interval system consists of a set of prescribed intervals \(I_r\subset\mathbb{R}\), each bearing a given positive weight \(\omega_r\), so as to define the usual Hilbert function space \(L^2_r(I_r; \omega_r)\equiv L^2_r\) of complex-valued square-integrable function on \(I_r\), and each supporting an assigned quasi-differential expression \(M_r\) which thus generates appropriate (unbounded) linear operators in our Hilbert function space for each \(r\). They show under suitable hypotheses, that a multi-interval system generates maximal and minimal operators, \(T_1\) and \(T_0\) with domains in the direct sum Hilbert space. Furthermore, the system generates self-adjoint operators in the direct sum Hilbert space, which are determined by kinds of generalized self-adjoint boundary conditions. Many of the results are illustrated through several kinds of examples. The examples include complete Lagrangians, for both finite- and infinite-dimensional complex symplectic spaces \(\mathbb{S}\) and illuminates new phenomena for the boundary value problems of multi-interval system. The book is very well organized and written in a clear concise manner. Highly recommended for graduate work.