Nonreciprocal microwave-optical entanglement in a magnon-based hybrid system

Zheng, Qianjun; Zhong, Wenxue; Cheng, Guangling; Chen, Aixi

doi:10.1063/5.0190162

Journal of Applied Physics

2024

DOI: 10.1063/5.0190162

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Nonreciprocal microwave-optical entanglement in a magnon-based hybrid system

Qianjun Zheng,

Wenxue Zhong,

Guangling Cheng

et al.

Abstract: We propose a theoretical scheme for the generation of nonreciprocal microwave-optical entanglement in a magnon-based hybrid system where an optical photon in a spinning resonator is coupled to a phonon representing the quantum of the mechanical deformation of a yttrium iron garnet crystal via radiation pressure. Meanwhile, the magnon interacts with the phonon and the microwave through the magnetostrictive and magnetic dipole–dipole interactions, respectively. By spinning the resonator, the light driven in oppo… Show more

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Distant bipartite entanglement generation in a hybrid opto-magnomechanical system

Tadesse,

Tesfahannes,

Darge

et al. 2024

AIP Advances

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In this work, we present a hybrid cavity opto-magnomechanical system to generate distant bipartite entanglement between different quantum carriers. Accordingly, the system consists of two cavity photons, a phonon of yttrium iron garnet (YIG), a magnon, and a phonon of membrane. Specifically, the two cavities are coupled through an optical fiber, and one of the optical cavities consists of a membrane coupled with the cavity photon through radiation pressure force. While the other cavity contains a YIG, the magnon mode connects to the cavity photon via magnetic dipole interaction and, simultaneously, couples to the mechanical resonator of the YIG through magnetostrictive interaction. We show that entanglement generation can be realized under indirectly coupled bipartitions for parameters and detunings within appropriate regimes. Furthermore, for various bipartitions, we also obtain appropriate cavity and magnon detuning values for a considerable remote entanglement. Moreover, the generation of distant bipartite entanglements and entanglement transfer between subsystems is predominantly influenced by the coupling strength. Remarkably, the distant bipartite entanglement is strongly contrary to the environmental temperature. Thus, optimizing the system’s parameters allows for the maximum possible entanglement between various quantum carriers. We believe our results could provide more stable bipartite entanglements and serve as a potential quantum interface to realize particularly long-range entanglement transfers.

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Distant bipartite entanglement generation in a hybrid opto-magnomechanical system

Tadesse,

Tesfahannes,

Darge

et al. 2024

AIP Advances

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Nonreciprocal microwave-optical entanglement in a magnon-based hybrid system

Cited by 1 publication

References 50 publications

Distant bipartite entanglement generation in a hybrid opto-magnomechanical system

Distant bipartite entanglement generation in a hybrid opto-magnomechanical system

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