Exchange and Distribution of Multipartite Entanglement via Atomic Coherence
Xihua Yang, Bolin Xue, Junxiang Zhang, Shiyao Zhu
TL;DR
This paper introduces a method using electromagnetically induced transparency in atomic ensembles to efficiently generate, exchange, and distribute multipartite entanglement across light and atoms, advancing quantum communication technologies.
Contribution
It demonstrates a deterministic, coherent-light-based approach for multipartite entanglement manipulation leveraging atomic coherence as a multifunctional quantum processor.
Findings
Achieved deterministic generation and exchange of multipartite entanglement.
Utilized EIT-induced atomic coherence as a quantum beam splitter and repeater.
Facilitated scalable quantum communication and networks.
Abstract
We present a convenient and efficient way to exchange and distribute multipartite entangled state via atomic coherence induced by electromagnetically induced transparency (EIT) in an atomic ensemble. By using the EIT-based nondegenerate four-wave mixing processes, the generation, exchange, and distribution of light-light, atom-light, and atom-atom multipartite entanglement can be achieved in a deterministic way with only coherent light fields. This EIT-induced atomic coherence acts as a quantum information processor and has the function of quantum beam splitter, quantum frequency converter, quantum entangler, and quantum repeater, which greatly facilitates the operations in quantum information processing, and holds promising applications in realistic scalable quantum communication and quantum networks
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Taxonomy
TopicsQuantum optics and atomic interactions · Quantum Information and Cryptography · Quantum Mechanics and Applications