Continuous-variable multipartite entanglement in an integrated microcomb

Jia, Xinyu; Zhai, Chonghao; Zhu, Xuezhi; You, Chang Kuk; Cao, Yunyun; Zhang, Xuguang; Zheng, Yun; Fu, Zhaorong; Mao, Jun; Dai, Tianxiang; Chang, Lin; Su, Xiaolong; Gong, Qihuang; Wang, Jianwei

doi:10.1038/s41586-025-08602-1

articleNatureFeb 19, 2025HYBRID OA

Continuous-variable multipartite entanglement in an integrated microcomb

XJXinyu Jia CZChonghao ZhaiXZXuezhi ZhuCKChang Kuk You YCYunyun Cao

Peking University · Beijing Academy of Quantum Information Sciences · +4 more institutions

PubMed

Indexed incrossrefpubmed

Abstract

The generation of large-scale entangled states is crucial for quantum technologies, such as quantum computation1, communication2 and metrology3. Integrated quantum photonics that enables on-chip encoding, processing and detection of quantum light states offers a promising platform for the generation and manipulation of large-scale entangled states4,5. Generating entanglement between qubits encoded in discrete variables within single photons is challenging, owing to the difficulty of making single photons interact on photonic chips6–11. Devices that operate with continuous variables are more promising, as they enable the deterministic generation and entanglement of qumodes, in which information is encoded in…

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56

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Percentile: 100%
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Authors

14

XJ
Xinyu JiaCorresponding
Peking University, Beijing Academy of Quantum Information Sciences
CZ
Chonghao Zhai
Peking University
XZ
Xuezhi Zhu
Shanxi University
CK
Chang Kuk You
Peking University
YC
Yunyun Cao
Shanxi University

Topics & keywords

Topics

Keywords

Quantum entanglement
Multipartite entanglement
Physics
Photonics
Multipartite
Quantum sensor
Photon entanglement
W state

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