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Quantum interference with independent single-photon sources over 300 km fiber 被引量:1
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作者 Xiang You Ming-Yang Zheng +23 位作者 Si Chen Run-Ze Liu Jian Qin Mo-Chi Xu Zheng-Xuan Ge Tung-Hsun Chung Yu-Kun Qiao Yang-Fan Jiang Han-Sen Zhong Ming-Cheng Chen Hui Wang Yu-Ming He Xiu-Ping Xie Hao Li Li-Xing You Christian Schneider Juan Yin Teng-Yun Chen mohamed benyouce Yong-Heng Huo Sven Höfling Qiang Zhang Chao-Yang Lu Jian-Wei Pan 《Advanced Photonics》 SCIE EI CAS CSCD 2022年第6期64-70,共7页
In the quest to realize a scalable quantum network,semiconductor quantum dots(QDs)offer distinct advantages,including high single-photon efficiency and indistinguishability,high repetition rate(tens of gigahertz with ... In the quest to realize a scalable quantum network,semiconductor quantum dots(QDs)offer distinct advantages,including high single-photon efficiency and indistinguishability,high repetition rate(tens of gigahertz with Purcell enhancement),interconnectivity with spin qubits,and a scalable on-chip platform.However,in the past two decades,the visibility of quantum interference between independent QDs rarely went beyond the classical limit of 50%,and the distances were limited from a few meters to kilometers.Here,we report quantum interference between two single photons from independent QDs separated by a 302 km optical fiber.The single photons are generated from resonantly driven single QDs deterministically coupled to microcavities.Quantum frequency conversions are used to eliminate the QD inhomogeneity and shift the emission wavelength to the telecommunication band.The observed interference visibility is 0.670.02(0.930.04)without(with)temporal filtering.Feasible improvements can further extend the distance to∼600 km.Our work represents a key step to long-distance solid-state quantum networks. 展开更多
关键词 quantum networks quantum dots solid-state single-photon sources quantum frequency conversion quantum interference
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