Related papers: SOS decomposition for general Bell inequalities in two qubits systems and its application to quantum randomness

SOS decomposition for general Bell inequalities in two qubits systems and its application to quantum randomness

URL: http://arxiv.org/abs/2409.08467v1
Date: Fri, 13 Sep 2024 01:43:32 GMT
Title: SOS decomposition for general Bell inequalities in two qubits systems and its application to quantum randomness
Authors: Wen-Na Zhao, Youwang Xiao, Ming Li, Li Xu, Shao-Ming Fei,
Abstract summary: Bell non-locality is closely related with device independent quantum randomness. We present a kind of sum-of-squares (SOS) decomposition for general Bell inequalities in two qubits systems.
Score: 7.873333768393128
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Bell non-locality is closely related with device independent quantum randomness. In this paper, we present a kind of sum-of-squares (SOS) decomposition for general Bell inequalities in two qubits systems. By using the obtained SOS decomposition, we can then find the measurement operators associated with the maximal violation of considered Bell inequality. We also practice the SOS decomposition method by considering the (generalized) Clauser-Horne-Shimony-Holt (CHSH) Bell inequality, the Elegant Bell inequality, the Gisin inequality and the Chained Bell inequality as examples. The corresponding SOS decompositions and the measurement operators that cause the maximum violation values of these Bell inequalities are derived, which are consistent with previous results. We further discuss the device independent quantum randomness by using the SOS decompositions of Bell inequalities. We take the generalized CHSH inequality with the maximally entangled state and the Werner state that attaining the maximal violations as examples. Exact value or lower bound on the maximal guessing probability using the SOS decomposition are obtained. For Werner state, the lower bound can supply a much precise estimation of quantum randomness when $p$ tends to $1$.

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