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Filtering one-way Einstein-Podolsky-Rosen steering

Ze-Yan Hao, Yan Wang, Jia-Kun Li, X. D. Yu, Qiongyi He, Zhenghao Liu, Mu Yang, Kai Sun, Jin‐Shi Xu, Chuan‐Feng Li, Guang‐Can Guo

2024Physical review. A/Physical review, A11 citationsDOI

Abstract

Einstein-Podolsky-Rosen (EPR) steering, a fundamental concept of quantum nonlocality, describes one observer's capability to remotely affect another distant observer's state by local measurements. Unlike quantum entanglement and Bell nonlocality, both associated with the symmetric quantum correlation, EPR steering depicts the unique asymmetric property of quantum nonlocality. With the local filter operation in which some system components are discarded, quantum nonlocality can be distilled to enhance the nonlocal correlation and even the hidden nonlocality can be activated. However, asymmetric quantum nonlocality in the filter operation still lacks a well-rounded investigation, especially considering the discarded parts where quantum nonlocal correlations may still exist with probabilities. Here, in both theory and experiment, we investigate the effect of reusing the discarded particles from local filter. We observe all configurations of EPR steering simultaneously and other intriguing evolution of asymmetric quantum nonlocality, such as reversing the direction of one-way EPR steering. This work provides a perspective to answer ``what is the essential role of utilizing quantum steering as a resource?'' and demonstrates a practical toolbox for manipulating asymmetric quantum systems with significant potential applications in quantum information tasks.

Topics & Concepts

EPR paradoxPhysicsEinsteinTheoretical physicsClassical mechanicsQuantum mechanicsQuantumQuantum entanglementQuantum Mechanics and ApplicationsQuantum Information and Cryptographyadvanced mathematical theories
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