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Autori principali: Zhang, Kun, Ni, Mo-Yang, Shi, Hai-Long, Wang, Xiao-Hui, Wang, Jin
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2507.01602
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author Zhang, Kun
Ni, Mo-Yang
Shi, Hai-Long
Wang, Xiao-Hui
Wang, Jin
author_facet Zhang, Kun
Ni, Mo-Yang
Shi, Hai-Long
Wang, Xiao-Hui
Wang, Jin
contents Fluctuation theorems establish exact relations for nonequilibrium dynamics, profoundly advancing the field of stochastic thermodynamics. In this work, we extend quantum fluctuation theorems beyond the traditional thermodynamic framework to quantum multipartite information dynamics, where both the system and the environment are multipartite without assuming any thermodynamic constraints. Based on the two-point measurement scheme and the classical probability, we establish the fluctuation theorem for the dynamics of classical multipartite mutual information. By extending to quasiprobability, we derive quantum fluctuation theorems for multipartite coherence and quantum correlations, presenting them in both integral and detailed forms. Our theoretical results are illustrated and verified using three-qubit examples, and feasible experimental verification protocols are proposed. These findings uncover the statistical structure underlying the nonequilibrium quantum information dynamics, providing fundamental insights and alternative tools for advancing quantum technologies.
format Preprint
id arxiv_https___arxiv_org_abs_2507_01602
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Fluctuation theorems for multipartite quantum coherence and correlation dynamics
Zhang, Kun
Ni, Mo-Yang
Shi, Hai-Long
Wang, Xiao-Hui
Wang, Jin
Quantum Physics
Statistical Mechanics
Fluctuation theorems establish exact relations for nonequilibrium dynamics, profoundly advancing the field of stochastic thermodynamics. In this work, we extend quantum fluctuation theorems beyond the traditional thermodynamic framework to quantum multipartite information dynamics, where both the system and the environment are multipartite without assuming any thermodynamic constraints. Based on the two-point measurement scheme and the classical probability, we establish the fluctuation theorem for the dynamics of classical multipartite mutual information. By extending to quasiprobability, we derive quantum fluctuation theorems for multipartite coherence and quantum correlations, presenting them in both integral and detailed forms. Our theoretical results are illustrated and verified using three-qubit examples, and feasible experimental verification protocols are proposed. These findings uncover the statistical structure underlying the nonequilibrium quantum information dynamics, providing fundamental insights and alternative tools for advancing quantum technologies.
title Fluctuation theorems for multipartite quantum coherence and correlation dynamics
topic Quantum Physics
Statistical Mechanics
url https://arxiv.org/abs/2507.01602