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Experimental Demonstration of Genuine Tripartite Nonlocality under Strict Locality Conditions

Liang Huang, Xuemei Gu, Yang-Fan Jiang, Dian Wu, Bing Bai, Ming-Cheng Chen, Qi-Chao Sun, Jun Zhang, Sixia Yu, Qiang Zhang, Chao‐Yang Lu, Jian-Wei Pan

2022Physical Review Letters14 citationsDOIOpen Access PDF

Abstract

Nonlocality captures one of the counterintuitive features of nature that defies classical intuition. Recent investigations reveal that our physical world's nonlocality is at least tripartite; i.e., genuinely tripartite nonlocal correlations in nature cannot be reproduced by any causal theory involving bipartite nonclassical resources and unlimited shared randomness. Here, by allowing the fair sampling assumption and postselection, we experimentally demonstrate such genuine tripartite nonlocality in a network under strict locality constraints that are ensured by spacelike separating all relevant events and employing fast quantum random number generators and high-speed polarization measurements. In particular, for a photonic quantum triangular network we observe a locality-loophole-free violation of the Bell-type inequality by 7.57 standard deviations for a postselected tripartite Greenberger-Horne-Zeilinger state of fidelity (93.13±0.24)%, which convincingly disproves the possibility of simulating genuine tripartite nonlocality by bipartite nonlocal resources with globally shared randomness.

Topics & Concepts

Quantum nonlocalityRandomnessLocalityBipartite graphTheoretical physicsPhysicsQuantumBell's theoremBell test experimentsQuantum mechanicsStatistical physicsComputer scienceQuantum entanglementMathematicsTheoretical computer sciencePhilosophyStatisticsLinguisticsGraphQuantum Mechanics and ApplicationsQuantum Information and CryptographyQuantum Computing Algorithms and Architecture
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