Entanglement of two spatially separated qubits via correlated photons

Sete, Eyob A.; Das, Sumanta

doi:10.1364/ol.37.001733

Opt. Lett.

2012

DOI: 10.1364/ol.37.001733

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Entanglement of two spatially separated qubits via correlated photons

Eyob A. Sete

Sumanta Das²

Abstract: We show that a high degree of steady-state entanglement between two spatially separated and initially uncoupled qubits can be achieved via interaction with a quantized squeezed field in a cavity. The cavity field induces two-photon coherence, which is crucial in creating entanglement between the qubits. Optimum entanglement is obtained when the less dissipative qubit is incoherently pumped while the other dissipates the excitation. Given the current state-of-the-art in cavity quantum electrodynamics and squeez… Show more

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Cited by 2 publications

References 16 publications

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Entanglement acquirement from continuous variable system

Shi

Zheng

Liu

et al. 2016

Int. J. Quantum Inform.

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We investigate a remote establishment of entanglement sharing resource through entanglement transferred from continuous variables to discrete variables. The analysis of generation of entanglement for two initially unentangled atoms with different fields are performed and simultaneous observations of the max entanglement acquirement is given. Based on our result, we suppose that the max and stable entanglement acquirement can be obtained with appropriate field parameters.

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Entanglement acquirement from continuous variable system

Shi

Zheng

Liu

et al. 2016

Int. J. Quantum Inform.

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Light-to-matter entanglement transfer in optomechanics

2014

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We analyze a scheme to entangle the movable mirrors of two spatially separated nanoresonators via a broadband squeezed light. We show that it is possible to transfer the EPR-type continuous-variable entanglement from the squeezed light to the mechanical motion of the movable mirrors. An optimal entanglement transfer is achieved when the nanoresonators are tuned at resonance with the vibrational frequencies of the movable mirrors and when strong optomechanical coupling is attained. Stationary entanglement of the states of the movable mirrors as strong as that of the input squeezed light can be obtained for sufficiently large optomechanical cooperativity, achievable in currently available optomechanical systems. The scheme can be used to implement long distance quantum state transfer provided that the squeezed light interacts with the nanoresonators.Comment: Published versio

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Entanglement of two spatially separated qubits via correlated photons

Cited by 2 publications

References 16 publications

Entanglement acquirement from continuous variable system

Entanglement acquirement from continuous variable system

Light-to-matter entanglement transfer in optomechanics

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