Related papers: The transfer of nonlocality between two- and three-qubit dissipative systems with counter-rotating-wave terms

The transfer of nonlocality between two- and three-qubit dissipative systems with counter-rotating-wave terms

URL: http://arxiv.org/abs/2411.13905v2
Date: Thu, 12 Dec 2024 14:25:16 GMT
Title: The transfer of nonlocality between two- and three-qubit dissipative systems with counter-rotating-wave terms
Authors: Zi-Yu Xiong, Yong-Jun Xiao, Ye-Qi Zhang, Qi-Liang He,
Abstract summary: In the strong coupling regime, the counter-rotating terms accelerate the decay of genuine three-party correlations. In the ultrastrong coupling regime, we observe a novel phenomenon where nonlocality is consistently transferred between a three-qubit and its subsystem.
Score: 0.13124513975412253
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Abstract: We investigate the effect of counter-rotating-wave terms on nonlocality and entanglement for three qubits coupled with a common bath for strong and ultrastrong coupling regimes beyond the traditional treatment of Born-Markovian, perturbative and rotating wave approximations by employing the numerical hierarchical equations of motion approach. Our findings are as follows: (i) In the strong coupling regime, the counter-rotating terms accelerate the decay of genuine three-party correlations, and the obvious sudden birth of BN is found; (ii) In the ultrastrong coupling regime, we observe a novel phenomenon where nonlocality is consistently transferred between a three-qubit and its subsystem. Besides, the inclusion of counter-rotating wave terms obviously enhances genuine tripartite nonlocality; and (iii) These counter-rotating terms cannot effectively generate genuine three-party correlations in zero-excitation cases, which differs from previous studies involving only two qubits.

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