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Main Authors: Zhang, Xueying, Zhang, Bin, Wei, Shihai, Li, Hao, Liao, Jinyu, Zhou, Tao, Deng, Guangwei, Wang, You, Song, Haizhi, You, Lixing, Fan, Boyu, Fan, Yunru, Chen, Feng, Guo, Guangcan, Zhou, Qiang
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.18516
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author Zhang, Xueying
Zhang, Bin
Wei, Shihai
Li, Hao
Liao, Jinyu
Zhou, Tao
Deng, Guangwei
Wang, You
Song, Haizhi
You, Lixing
Fan, Boyu
Fan, Yunru
Chen, Feng
Guo, Guangcan
Zhou, Qiang
author_facet Zhang, Xueying
Zhang, Bin
Wei, Shihai
Li, Hao
Liao, Jinyu
Zhou, Tao
Deng, Guangwei
Wang, You
Song, Haizhi
You, Lixing
Fan, Boyu
Fan, Yunru
Chen, Feng
Guo, Guangcan
Zhou, Qiang
contents Light-matter interface is an important building block for long-distance quantum networks. Towards a scalable quantum network with high-rate quantum information processing, it requires to develop integrated light-matter interfaces with broadband and multiplexing capacities. Here we demonstrate a light-matter interface at telecom band in an integrated system. A five-spectral-channel atomic-frequency-comb photonic memory is prepared on a laser-written Er3+:LiNbO3 chip. The bandwidth of each channel is 4 GHz with a channel spacing of 15 GHz. The signal photons from time-bin entangled photon pairs at telecom band are sent into the on-chip memory and recalled after a storage time of 152 ns. The entanglement-preserving nature of our integrated quantum interface is assessed by an input/output fidelity of >92% for all the five spectral channels. Our light-matter interfaces constitute a notable step forward toward a high-rate quantum network involving integrated device.
format Preprint
id arxiv_https___arxiv_org_abs_2410_18516
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Integrated spectrally multiplexed light-matter interface at telecom band
Zhang, Xueying
Zhang, Bin
Wei, Shihai
Li, Hao
Liao, Jinyu
Zhou, Tao
Deng, Guangwei
Wang, You
Song, Haizhi
You, Lixing
Fan, Boyu
Fan, Yunru
Chen, Feng
Guo, Guangcan
Zhou, Qiang
Quantum Physics
Light-matter interface is an important building block for long-distance quantum networks. Towards a scalable quantum network with high-rate quantum information processing, it requires to develop integrated light-matter interfaces with broadband and multiplexing capacities. Here we demonstrate a light-matter interface at telecom band in an integrated system. A five-spectral-channel atomic-frequency-comb photonic memory is prepared on a laser-written Er3+:LiNbO3 chip. The bandwidth of each channel is 4 GHz with a channel spacing of 15 GHz. The signal photons from time-bin entangled photon pairs at telecom band are sent into the on-chip memory and recalled after a storage time of 152 ns. The entanglement-preserving nature of our integrated quantum interface is assessed by an input/output fidelity of >92% for all the five spectral channels. Our light-matter interfaces constitute a notable step forward toward a high-rate quantum network involving integrated device.
title Integrated spectrally multiplexed light-matter interface at telecom band
topic Quantum Physics
url https://arxiv.org/abs/2410.18516