Related papers: Demonstrating shareability of multipartite Einstein-Podolsky-Rosen steering

Demonstrating shareability of multipartite Einstein-Podolsky-Rosen steering

URL: http://arxiv.org/abs/2104.12088v2
Date: Wed, 30 Mar 2022 01:46:55 GMT
Title: Demonstrating shareability of multipartite Einstein-Podolsky-Rosen steering
Authors: Ze-Yan Hao, Kai Sun, Yan Wang, Zheng-Hao Liu, Mu Yang, Jin-Shi Xu, Chuan-Feng Li, and Guang-Can Guo
Abstract summary: Einstein-Podolsky-Rosen (EPR) steering is a category of quantum nonlocal correlations describing the ability of one observer to influence another party's state via local measurements. Here, we provide a proof-of-principle demonstration of the shareability of EPR steering without the constraint of monogamy in a three-qubit system. This work has potential applications in many quantum information protocols, such as multipartite entanglement detection, quantum cryptography, and the construction of quantum networks.
Score: 12.387712831635127
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Einstein-Podolsky-Rosen (EPR) steering, a category of quantum nonlocal correlations describing the ability of one observer to influence another party's state via local measurements, is different from both entanglement and Bell nonlocality by possessing an asymmetric property. For multipartite EPR steering, the monogamous situation, where two observers cannot simultaneously steer the state of the third party, has been investigated rigorously both in theory and experiment. In contrast to the monogamous situation, the shareability of EPR steering in reduced subsystems allows the state of one party to be steered by two or more observers and thus reveals more configurations of multipartite EPR steering. However, the experimental implementation of such a kind of shareability has still been absent until now. Here, in an optical experiment, we provide a proof-of-principle demonstration of the shareability of EPR steering without the constraint of monogamy in a three-qubit system. Moreover, based on the reduced bipartite EPR steering detection results, we verify the genuine three-qubit entanglement results. This work provides a complementary viewpoint for understanding multipartite EPR steering and has potential applications in many quantum information protocols, such as multipartite entanglement detection, quantum cryptography, and the construction of quantum networks.

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