Reflectionless canonical systems, I: Arov gauge and right limits

Roman Bessonov; Milivoje Lukic; Petro Yudytskiy

doi:10.1007/s00020-021-02683-z

Reflectionless canonical systems, I: Arov gauge and right limits

Roman Bessonov, Milivoje Lukic, Petro Yudytskiy

Department of Dynamic Systems and Approximation Theory

Research output: Contribution to journal › Article › peer-review

Abstract

In spectral theory, j-monotonic families of 2×2 matrix functions appear as transfer matrices of many one-dimensional operators. We present a general theory of such families, in the perspective of canonical systems in Arov gauge. This system resembles a continuum version of the Schur algorithm, and allows to restore an arbitrary Schur function along the flow of associated boundary values at infinity. In addition to results in Arov gauge, this provides a gauge-independent perspective on the Krein–de Branges formula and the reflectionless property of right limits on the absolutely continuous spectrum. This work has applications to inverse spectral problems which have better behavior with respect to a normalization at an internal point of the resolvent domain.

Original language	English
Article number	4
Number of pages	30
Journal	Integral Equations and Operator Theory
Volume	94
Issue number	1
DOIs	https://doi.org/10.1007/s00020-021-02683-z
Publication status	Published - 2022

Fields of science

101002 Analysis
101027 Dynamical systems
101031 Approximation theory
103019 Mathematical physics

JKU Focus areas

Digital Transformation

Access to Document

10.1007/s00020-021-02683-z

Cite this

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abstract = "In spectral theory, j-monotonic families of 2×2 matrix functions appear as transfer matrices of many one-dimensional operators. We present a general theory of such families, in the perspective of canonical systems in Arov gauge. This system resembles a continuum version of the Schur algorithm, and allows to restore an arbitrary Schur function along the flow of associated boundary values at infinity. In addition to results in Arov gauge, this provides a gauge-independent perspective on the Krein–de Branges formula and the reflectionless property of right limits on the absolutely continuous spectrum. This work has applications to inverse spectral problems which have better behavior with respect to a normalization at an internal point of the resolvent domain.",

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AU - Bessonov, Roman

AU - Lukic, Milivoje

AU - Yudytskiy, Petro

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Y1 - 2022

N2 - In spectral theory, j-monotonic families of 2×2 matrix functions appear as transfer matrices of many one-dimensional operators. We present a general theory of such families, in the perspective of canonical systems in Arov gauge. This system resembles a continuum version of the Schur algorithm, and allows to restore an arbitrary Schur function along the flow of associated boundary values at infinity. In addition to results in Arov gauge, this provides a gauge-independent perspective on the Krein–de Branges formula and the reflectionless property of right limits on the absolutely continuous spectrum. This work has applications to inverse spectral problems which have better behavior with respect to a normalization at an internal point of the resolvent domain.

AB - In spectral theory, j-monotonic families of 2×2 matrix functions appear as transfer matrices of many one-dimensional operators. We present a general theory of such families, in the perspective of canonical systems in Arov gauge. This system resembles a continuum version of the Schur algorithm, and allows to restore an arbitrary Schur function along the flow of associated boundary values at infinity. In addition to results in Arov gauge, this provides a gauge-independent perspective on the Krein–de Branges formula and the reflectionless property of right limits on the absolutely continuous spectrum. This work has applications to inverse spectral problems which have better behavior with respect to a normalization at an internal point of the resolvent domain.

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DO - 10.1007/s00020-021-02683-z

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