Multipartite quantum correlations in the frustrated and nonfrustrated regimes of a tunable triangular Ising system

• URL: http://arxiv.org/abs/2109.03576v2
• Date: Fri, 11 Feb 2022 06:27:53 GMT
• Title: Multipartite quantum correlations in the frustrated and nonfrustrated regimes of a tunable triangular Ising system
• Authors: Jun Ren, Fang-Man Liu, Li-Hang Ren, Z. D. Wang, Yan-Kui Bai
• Abstract summary: We study the multipartite quantum correlation (MQC) in a quantum transverse Ising system with the tunable triangular configuration. We reveal that the spatially anisotropic coupling is an effective and feasible tool for the MQC modulation in the ground state of frustrated Ising spins.
• Score: 0.13499500088995461
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We study the multipartite quantum correlation (MQC) in a quantum transverse Ising system with the tunable triangular configuration, where it is found that the MQC itself cannot always discriminate the frustrated and nonfrustrated regimes of the ground state but the MQC combined with our newly defined MQC susceptibility can complete the task. Meanwhile, we reveal that the spatially anisotropic coupling is an effective and feasible tool for the MQC modulation in the ground state of frustrated Ising spins. Furthermore, we analyze the multipartite correlation properties in the thermal state, where it is shown that, unlike the thermally fragile MQC in the nonfrustrated regimes, there is a three-way trade-off relation among high MQC, strong thermal robustness, and the spatially anisotropic interactions in the frustrated spins. In addition, an experimental scheme for the MQC modulation via the anisotropic coupling is discussed in the system of cold atoms trapped in an optical lattice.

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