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Quantum feedback induced genuine magnon-photon-magnon entanglement and steering in a cavity magnonical system

Results in Physics(2023)

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Abstract
We present an alternative scheme to generate genuine tripartite entanglement and steering among one photon and two magnons in a cavity magnonical system, where two yttrium iron garnet spheres are respectively placed inside two microwave cavities driven by a two-mode squeezed field and subjected to homodyne-measurement feedback. It is found that quantum feedback on two cavities plays a crucial role in enhancing quantum correlations of photons and magnons. In the absence of measurement feedback, only bipartite entanglement between two magnons is existent. In contrast, when the continuous measurement feedback is present, two magnons are strongly entangled and magnon-photon entanglement also appears. More importantly, the stable genuine magnon-photon-magnon tripartite entanglement and steering could be obtained based on the homodyne-measurement feedback on two microwave cavities, which are robust against the thermal fluctuations. The work we present provides a feasible way to manipulate the multipartite quantum correlations including entanglement and steering in hybrid quantum systems.
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Key words
Genuine tripartite steering,Genuine tripartite entanglement,Squeezed vacuum field,Quantum feedback,Cavity magnonical system
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