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Auteurs principaux: Scialchi, Gastón F., Roncaglia, Augusto J., Wisniacki, Diego A.
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.11034
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author Scialchi, Gastón F.
Roncaglia, Augusto J.
Wisniacki, Diego A.
author_facet Scialchi, Gastón F.
Roncaglia, Augusto J.
Wisniacki, Diego A.
contents We study quantum-to-classical correspondence of the Krylov space for evolutions driven by unitary maps with a classical limit. This entails a proper definition of corresponding quantum and classical operators, inner products and initial states. We prove that with these definitions the purely classical Krylov space is indeed obtained as the asymptotic $\hbar\to 0$ expansion of the quantum Krylov space, and provide several examples of such correspondence. We use these examples to analyze some general aspects about the evolution of the Krylov complexity as they relate to the phase-space representation for the Krylov states. Additionally, we discuss alternative definitions to obtain the correspondence and why they fail. This paper constitutes a first step in understanding complexity and ergodicity of unitary evolution through the Krylov perspective as they relate to classical dynamical notions.
format Preprint
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publishDate 2026
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spellingShingle Quantum-to-classical correspondence in Krylov complexity
Scialchi, Gastón F.
Roncaglia, Augusto J.
Wisniacki, Diego A.
Quantum Physics
We study quantum-to-classical correspondence of the Krylov space for evolutions driven by unitary maps with a classical limit. This entails a proper definition of corresponding quantum and classical operators, inner products and initial states. We prove that with these definitions the purely classical Krylov space is indeed obtained as the asymptotic $\hbar\to 0$ expansion of the quantum Krylov space, and provide several examples of such correspondence. We use these examples to analyze some general aspects about the evolution of the Krylov complexity as they relate to the phase-space representation for the Krylov states. Additionally, we discuss alternative definitions to obtain the correspondence and why they fail. This paper constitutes a first step in understanding complexity and ergodicity of unitary evolution through the Krylov perspective as they relate to classical dynamical notions.
title Quantum-to-classical correspondence in Krylov complexity
topic Quantum Physics
url https://arxiv.org/abs/2603.11034