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W2740116770 abstract "The correlations in quantum networks have attracted strong interest with new types of violations of the locality. The standard Bell inequalities cannot characterize the multipartite correlations that are generated by multiple sources. The main problem is that no computationally efficient method is available for constructing useful Bell inequalities for general quantum networks. In this work, we show a significant improvement by presenting new, explicit Bell-type inequalities for general networks including cyclic networks. These nonlinear inequalities are related to the matching problem of an equivalent unweighted bipartite graph that allows constructing a polynomial-time algorithm. For the quantum resources consisting of bipartite entangled pure states and generalized Greenberger-Horne-Zeilinger (GHZ) states, we prove the generic non-multilocality of quantum networks with multiple independent observers using new Bell inequalities. The violations are maximal with respect to the presented Tsirelson's bound for Einstein-Podolsky-Rosen (EPR) states and GHZ states. Moreover, these violations hold for Werner states or some general noisy states. Our results suggest that the presented Bell inequalities can be used to characterize experimental quantum networks." @default.
W2740116770 created "2017-08-08" @default.
W2740116770 creator A5050235137 @default.
W2740116770 date "2018-04-03" @default.
W2740116770 modified "2023-10-16" @default.
W2740116770 title "Computationally Efficient Nonlinear Bell Inequalities for Quantum Networks" @default.
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W2740116770 doi "https://doi.org/10.1103/physrevlett.120.140402" @default.
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