On eigenfunction expansions of first-order symmetric systems and ordinary differential operators of an odd order

Abstract

We study general (not necessarily Hamiltonian) first-order symmetric systems J y'-B(t)y=(t) f(t) on an interval =[a,b with the regular endpoint a. It is assumed that the deficiency indices n() of the minimal relation satisfy n+()< n-(). We define -depending boundary conditions which are analogs of separated self-adjoint boundary conditions for Hamiltonian systems. With a boundary value problem involving such conditions we associate an exit space self-adjoint extension T of and the m-function m(), which is an analog of the Titchmarsh-Weyl coefficient for the Hamiltonian system. By using m-function we obtain the eigenfunction expansion with the spectral function () of the minimally possible dimension and characterize the case when spectrum of T is defined by (). Moreover, we parametrize all spectral functions in terms of a Nevanlinna type boundary parameter. Application of these results to ordinary differential operators of an odd order enables us to complete the results by Everitt and Krishna Kumar on the Titchmarsh-Weyl theory of such operators.