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Main Authors: Wang, Yan, Lin, Shao-qi, Shen, Rui-qi, Chen, Fang-liang, Zhang, Guo-qiang, Chen, Li-jiong, Sun, Yong-nan, Su, Qi-ping, Yang, Chui-ping
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.26711
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author Wang, Yan
Lin, Shao-qi
Shen, Rui-qi
Chen, Fang-liang
Zhang, Guo-qiang
Chen, Li-jiong
Sun, Yong-nan
Su, Qi-ping
Yang, Chui-ping
author_facet Wang, Yan
Lin, Shao-qi
Shen, Rui-qi
Chen, Fang-liang
Zhang, Guo-qiang
Chen, Li-jiong
Sun, Yong-nan
Su, Qi-ping
Yang, Chui-ping
contents The memory effects in open quantum systems can induce information backflow and revive quantum correlations, thereby providing a powerful way to protect and recover useful quantum resources in realistic noisy environments. However, such dynamics remains experimentally unexplored in multipartite quantum steering. Here we observe different non-Markovian evolution of tripartite quantum steering using Greenberger-Horne-Zeilinger-type mixed states, covering both death and revival processes. In particular, we experimentally demonstrate the more intricate asymmetric steering structure of tripartite quantum steering through different bipartitions, which do not arise in bipartite systems. Our results provide foundational insights into the hierarchical and directional structures in multipartite quantum steering, and highlight its potential as a useful resource for asymmetric quantum information processing.
format Preprint
id arxiv_https___arxiv_org_abs_2604_26711
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Observation of Non-Markovian Evolution of Tripartite Quantum Steering
Wang, Yan
Lin, Shao-qi
Shen, Rui-qi
Chen, Fang-liang
Zhang, Guo-qiang
Chen, Li-jiong
Sun, Yong-nan
Su, Qi-ping
Yang, Chui-ping
Quantum Physics
The memory effects in open quantum systems can induce information backflow and revive quantum correlations, thereby providing a powerful way to protect and recover useful quantum resources in realistic noisy environments. However, such dynamics remains experimentally unexplored in multipartite quantum steering. Here we observe different non-Markovian evolution of tripartite quantum steering using Greenberger-Horne-Zeilinger-type mixed states, covering both death and revival processes. In particular, we experimentally demonstrate the more intricate asymmetric steering structure of tripartite quantum steering through different bipartitions, which do not arise in bipartite systems. Our results provide foundational insights into the hierarchical and directional structures in multipartite quantum steering, and highlight its potential as a useful resource for asymmetric quantum information processing.
title Observation of Non-Markovian Evolution of Tripartite Quantum Steering
topic Quantum Physics
url https://arxiv.org/abs/2604.26711