Type: Article
Publication Date: 2008-01-01
Citations: 8
DOI: https://doi.org/10.7153/oam-02-17
A class of scalar Stieltjes like functions is realized as linear-fractional transformations of transfer functions of conservative systems based on a Schrödinger operator T h in L 2 [a, +∞) with a non-selfadjoint boundary condition.In particular it is shown that any Stieltjes function of this class can be realized in the unique way so that the main operator A of a system is an accretive ( * ) -extension of a Schrödinger operator T h .We derive formulas that restore the system uniquely and allow to find the exact value of a non-real parameter h in the definition of T h as well as a real parameter μ that appears in the construction of the elements of the realizing system.An elaborate investigation of these formulas shows the dynamics of the restored parameters h and μ in terms of the changing free term γ from the integral representation of the realizable function.It turns out that the parametric equations for the restored parameter h represent different circles whose centers and radii are determined by the realizable function.Similarly, the behavior of the restored parameter μ are described by hyperbolas.