Nonreciprocal Multipartite Entanglement in a two-cavity magnomechanical system

• URL: http://arxiv.org/abs/2405.16221v1
• Date: Sat, 25 May 2024 13:25:47 GMT
• Title: Nonreciprocal Multipartite Entanglement in a two-cavity magnomechanical system
• Authors: Rizwan Ahmed, Hazrat Ali, Aamir Shehzad, S K Singh, Amjad Sohail, Marcos Céesar de Oliveira,
• Abstract summary: We propose a scheme for the generation of nonreciprocal multipartite entanglement in a two-mode cavity magnomechanical system. Our results show that the magnon self-Kerr effect can significantly enhance bipartite entanglement, which turns out to be non-reciprocal when the magetic field is tuned along the crystallographic axis.
• Score: 0.21990652930491852
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We propose a scheme for the generation of nonreciprocal multipartite entanglement in a two-mode cavity magnomechanical system, consisting of two cross microwave (MW) cavities having an yttrium iron garnet (YIG) sphere, which is coupled through magnetic dipole interaction. Our results show that the magnon self-Kerr effect can significantly enhance bipartite entanglement, which turns out to be non-reciprocal when the magetic field is tuned along the crystallographic axis [110]. This is due to the frequency shift on the magnons (YIG sphere), which depends upon the direction of magnetic field. Interestingly, the degree of nonreciprocity of entanglement depends upon a careful optimal choice of system parameters like normalizd cavity detunings, bipartite nonlinear index $\Delta E_{K}$, self-Kerr coefficient and effective magnomechanical coupling rate $G$. In addition to bipartite entanglement, we also explored the nonreciprocity in tripartite entanglement. Our present theoretical proposal for nonreciprocity in multipartite entanglement may find applications in diverse engineering nonreciprocal devices.

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