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W4385454417 abstract "We show how to prepare macroscopic entanglement between an atomic ensemble and a large number of magnons in a ferrimagnetic yttrium-iron-garnet crystal. Specifically, we adopt an optomagnomechanical configuration where the magnetostriction-induced magnomechanical displacement couples to an optical cavity via radiation pressure, and the latter further couples to an ensemble of two-level atoms that are placed inside the cavity. We show that, by properly driving the cavity and magnon modes, optomechanical entanglement is created which is further distributed to the atomic and magnonic systems, yielding stationary entanglement between atoms and magnons. The atom-magnon entanglement is a result of the combined effect of opto- and magnomechanical cooling and optomechanical parametric down-conversion interactions. A competition mechanism between two mechanical cooling channels is revealed. We further show that genuine tripartite entanglement of three massive subsystems, i.e., atoms, magnons, and phonons, can also be achieved in the same system. Our results indicate that the hybrid optomagnomechanical system may become a promising system for preparing macroscopic quantum states involving magnons, photons, phonons, and atoms." @default.
W4385454417 created "2023-08-02" @default.
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W4385454417 date "2023-08-01" @default.
W4385454417 modified "2023-10-11" @default.
W4385454417 title "Entangling ferrimagnetic magnons with an atomic ensemble via optomagnomechanics" @default.
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W4385454417 doi "https://doi.org/10.1103/physreva.108.023501" @default.
W4385454417 hasPublicationYear "2023" @default.
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