Killip-Simon problem and Jacobi flow on GSMP matrices

TL;DR

This paper extends the Killip-Simon theorem to finite systems of spectral intervals using the Jacobi flow on GSMP matrices, introducing new spectral theory objects and integrable systems.

Contribution

It provides a complete solution to extending the Killip-Simon theorem to general finite interval spectra via the Jacobi flow on GSMP matrices, a novel spectral theory approach.

Findings

Extended the Killip-Simon theorem to finite systems of intervals.

Introduced and analyzed the Jacobi flow on GSMP matrices.

Connected spectral theory with integrable systems and vector bundle curvature.

Abstract

One of the first and therefore most important theorems in perturbation theory claims that for an arbitrary self-adjoint operator A there exists a perturbation B of Hilbert-Schmidt class with arbitrary small operator norm, which destroys completely the absolutely continuos (a.c.) spectrum of the initial operator A (von Neumann). However, if A is the discrete free 1-D Schr\"odinger operator and B is an arbitrary Jacobi matrix (of Hilbert-Schmidt class) the a.c. spectrum remains perfectly the same, that is, the interval [-2,2]. Moreover, Killip and Simon described explicitly the spectral properties for such A+B. Jointly with Damanik they generalized this result to the case of perturbations of periodic Jacobi matrices in the non-degenerated case. Recall that the spectrum of a periodic Jacobi matrix is a system of intervals of a very specific nature. Christiansen, Simon and Zinchenko posed in a review dedicated to F. Gesztesy (2013) the following question: "is there an extension of the Damanik-Killip-Simon theorem to the general finite system of intervals case?" In this paper we solve this problem completely. Our method deals with the Jacobi flow on GSMP matrices. GSMP matrices are probably a new object in the spectral theory. They form a certain Generalization of matrices related to the Strong Moment Problem, the latter ones are a very close relative of Jacobi and CMV matrices. The Jacobi flow on them is also a probably new member of the rich family of integrable systems. Finally, related to Jacobi matrices of Killip-Simon class, analytic vector bundles and their curvature play a certain role in our construction and, at least on the level of ideology, this role is quite essential.