Implementation of One-Way Quantum Steering and Controlled Generation of Asymmetric Tripartite Entanglement in Double Coupling Cavity-Magnonics Subsystems

IF 4.4 Q1 OPTICS Advanced quantum technologies Pub Date : 2024-08-08 DOI:10.1002/qute.202400180
Yue-Han Lin, Ya-Qin Lin, Rong-Can Yang, Hong-Yu Liu
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Abstract

Two cavity-magnon subsystems coupled via the two single-mode cavities mediated by a non-degenerate parametric down conversion and each cavity carrying a magnon confined in a Yttrium-iron-garnet sphere is proposed to study one-way quantum steering and asymmetric tripartite entanglement. The entanglement can be transferred from the two microwave cavities to the two separated magnon modes using magnetic dipole interaction. Different from previous schemes, the present study demonstrates efficient realization of controllable one-way quantum steering between two magnon modes through asymmetric frequency detunings of the two magnon modes. In addition, an asymmetric tripartite entanglement can also be achieved. Furthermore, the system exhibits robustness to temperatures up to 100 mK, providing a promising avenue for utilizing cavity magnonics systems in unidirectional transmission of quantum information.

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在双耦合腔-磁子系统中实现单向量子转向和受控生成不对称三方纠缠
为了研究单向量子转向和非对称三方纠缠,我们提出了两个腔体-磁子子系统,它们通过两个单模腔体以非退相参量下变频为媒介耦合,每个腔体携带一个限制在钇铁石榴石球中的磁子。利用磁偶极相互作用,纠缠可以从两个微波腔转移到两个分离的磁子模式。与以往的方案不同,本研究通过两个磁子模式的非对称频率失谐,有效地实现了两个磁子模式之间的可控单向量子转向。此外,还实现了非对称三方纠缠。此外,该系统在高达 100 mK 的温度下也表现出很强的鲁棒性,为利用空腔磁子系统进行量子信息的单向传输提供了一条前景广阔的途径。
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