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Bibliographic Details
Main Authors: Alexander, A., Carey, A., Levitina, G., Rennie, A.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.22451
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author Alexander, A.
Carey, A.
Levitina, G.
Rennie, A.
author_facet Alexander, A.
Carey, A.
Levitina, G.
Rennie, A.
contents We prove an integral formula for the spectral flow of differentiable loops of unitaries of the form ${\rm Id}+$Schatten. Our formula is in terms of a regularised winding number, expressed in terms of exact differential forms, and we show how the formula extends to non-closed paths. Applying these ideas to the scattering operator of Schrödinger scattering systems yields explicit formulae for the number of bound states, possibly modified by the presence of resonances, of the system in terms of the potential. We finish by briefly considering the paths of unbounded operators obtained from unitary loops via the Cayley transform. These include cases of moving domain as well as paths with non-constant Hilbert space.
format Preprint
id arxiv_https___arxiv_org_abs_2604_22451
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Analytic spectral flow formula for unitaries and Levinson's theorem
Alexander, A.
Carey, A.
Levitina, G.
Rennie, A.
Functional Analysis
K-Theory and Homology
We prove an integral formula for the spectral flow of differentiable loops of unitaries of the form ${\rm Id}+$Schatten. Our formula is in terms of a regularised winding number, expressed in terms of exact differential forms, and we show how the formula extends to non-closed paths. Applying these ideas to the scattering operator of Schrödinger scattering systems yields explicit formulae for the number of bound states, possibly modified by the presence of resonances, of the system in terms of the potential. We finish by briefly considering the paths of unbounded operators obtained from unitary loops via the Cayley transform. These include cases of moving domain as well as paths with non-constant Hilbert space.
title Analytic spectral flow formula for unitaries and Levinson's theorem
topic Functional Analysis
K-Theory and Homology
url https://arxiv.org/abs/2604.22451