Tight upper bound and monogamy relation for the maximum quantum value of the parity-CHSH inequality and applied to device-independent randomness

• URL: http://arxiv.org/abs/2504.13427v1
• Date: Fri, 18 Apr 2025 02:58:59 GMT
• Title: Tight upper bound and monogamy relation for the maximum quantum value of the parity-CHSH inequality and applied to device-independent randomness
• Authors: Guannan Zhang, Jiamin Xu, Ming Li, Shuqian Shen, Lei Li, Shao-ming Fei,
• Abstract summary: We derive the maximum quantum value of the parity-CHSH inequality for a three-qubit system.<n>We present necessary and sufficient conditions for certain states to violate the parity-CHSH inequality.
• Score: 15.959534674111326
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: Based on the violation of Bell inequalities, we can verify quantum random numbers by examining the correlation between device inputs and outputs. In this paper, we derive the maximum quantum value of the parity-CHSH inequality for a three-qubit system, establishing a tight upper bound applicable to any quantum state. Simultaneously, the necessary constraints for achieving saturation are analyzed. Utilizing this method, we present necessary and sufficient conditions for certain states to violate the parity-CHSH inequality. Building upon our proposal, the relationship between the noise parameter and the certifiable randomness in a bipartite entangled state is probed. Furthermore, we derive a monogamy relationship between the average values of the parity-CHSH inequality associated with the reduced three-qubit density matrices of GHZ-class states comprising four qubits.

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