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Einstein-Podolsky-Rosen Steering and Nonlocality in Open Quantum Systems

DOI: 10.4236/jmp.2024.154021, PP. 462-473

Keywords: Quantum Steering, Dynamical Semigroups, Bell Nonlocality, Open Quantum System, Asymptotic Dynamics, Entanglement

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Abstract:

We investigate the dynamical behavior of quantum steering (QS), Bell nonlocality, and entanglement in open quantum systems. We focus on a two-qubit system evolving within the framework of Kossakowski-type quantum dynamical semigroups. Our findings reveal that the measures of quantumness for the asymptotic states rely on the primary parameter of the quantum model. Furthermore, control over these measures can be achieved through a careful selection of these parameters. Our analysis encompasses various cases, including Bell states, Werner states, and Horodecki states, demonstrating that the asymptotic states can exhibit steering, entanglement, and Bell nonlocality. Additionally, we find that these three quantum measures of correlations can withstand the influence of the environment, maintaining their properties even over extended periods.

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