Theory of control of optomechanical transducers for quantum networks
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Version 1 2018-08-24, 14:29Version 1 2018-08-24, 14:29
journal contribution
posted on 2024-06-18, 06:41 authored by FY Hong, Y Xiang, WH Tang, ZY Zhu, LZ Jiang, LN WuWe present a scheme of control for the arbitrary optical interface mediated by a nanoscale mechanical oscillator between flying qubits and optical nonactive solid-state qubits. This quantum interface lays the foundation for many key functions of a quantum network, such as transferring, swapping, and entangling qubits between distant nodes of a quantum network. Numerical simulations of the quantum interface operations show high fidelities and robust tolerance under realistic experimental conditions. Compared with a previous scheme, it may significantly increase the speed of state transfer operation of high fidelity. © 2012 American Physical Society.
History
Journal
Physical review aVolume
85Article number
012309Location
College Park, Md.Publisher DOI
Open access
- Yes
ISSN
1050-2947eISSN
1094-1622Language
engPublication classification
C1.1 Refereed article in a scholarly journalCopyright notice
2012, American Physical SocietyIssue
1Publisher
American Physical SocietyUsage metrics
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