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Development of a Quantum Repeater for Long-Distance Quantum Communication Using Photonic Information Storage

机译：利用光子信息存储技术开发量子中继器进行远程量子通信

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In this project, we have carried out the pioneering work for long- distance quantum communication using atomic ensembles for photon-state storage and for implementation of quantum repeaters. This work was followed by many groups and is now considered as one of the most promising approaches to overcoming photon losses in long-distance quantum communication. Specific highlights include theoretical proposals for quantum repeaters based on atomic ensembles (Nature, 414, 413, 2001), atom-atom correlations mediated by dark- state polaritons (Phys.Rev.Lett., 88, 243602, 2002), generation of stationary pulses of light (Phys.Rev.Lett, 89, 143602, 2002); experimental demonstrations of atomic memory for correlated photon states (Science, 301, 196, 2003), stationary pulses of light (Nature 426, 638, 2003), shaping quantum pulses via atomic memory (Phys.Rev.Lett. 93, 233602, 2004), and finally realization of two-node quantum network involving generation and storage of single photon pulses in two remote ensembles (Nature, 438, 837, 2005). Finally, we proposed and analyzed a novel method that uses fixed, minimal physical resources to achieve generation and nested purification of quantum entanglement for quantum communication over arbitrarily long distances. In this method, solid-state single photon emitters with two internal degrees of freedom formed by an electron spin and a nuclear spin are used to build intermediate nodes in a quantum channel (Phys.Rev.Lett. 96,070504, 2006). Recently, we have experimentally demonstrated such a node using Nitrogen-Vacancy centers in room temperature diamond lattice (submitted to Science, 2007).

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作者
Lukin, M.;
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年度 2007
页码 1-17
总页数 17
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Photonics; Quantum optics; Light pulses; Long range(Distance); Photons; Communication and radio systems;

机译：光子学;量子光学;光脉冲;长距离（距离）;光子;通信和无线电系统;

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1. Heralded quantum repeater for a quantum communication network based on quantum dots embedded in optical microcavities [J] . Li Tao, Yang Guo-Jian, Deng Fu-Guo Physical Review, A . 2016,第1aPta1期

机译：用于基于光微腔中嵌入的量子点的量子通信网络的预告量子中继器
2. Heralded quantum repeater for a quantum communication network based on quantum dots embedded in optical microcavities [J] . Li Tao, Yang Guo-Jian, Deng Fu-Guo Physical Review, A . 2016,第1aPta1期

机译：基于光学微腔中的量子点的量子通信网络的预示量子中继器
3. First Proof-of-principle Experiment of Quantum Repeaters with All Photonics—Major Step towards a Quantum Internet as the Holy Grail of Information-processing Networks [J] . NTT Technical Review . 2019,第7期

机译：具有所有光子学的量子中继器的首次原理验证实验-迈向作为信息处理网络圣杯的量子互联网迈出的重要一步
4. QUANTUM COMMUNICATIONS WITH TIME-BIN ENTANGLED PHOTONS: LONG-DISTANCE QUANTUM TELEPORTATION AND QUANTUM REPEATERS [C] . N. GISIN, I. MARCIKIC, H. DE RIEDMATTEN, Sixth International Conference on Quantum Communication, Measurement and Computing; Jul 22-26, 2002; Cambridge, Massachusetts, USA . 2002

机译：带有时空纠缠光子的量子通信：长距离量子隐形传态和量子重复
5. Manipulation of Photonic Quantum States: From Generation, Engineering, and Characterization to Storage and Retrieval [D] . Fang, Bin 2018

机译：光子量子态的操纵：从生成，工程，表征到存储和检索。
6. All-photonic quantum repeaters [O] . Koji Azuma, Kiyoshi Tamaki, Hoi-Kwong Lo -1

机译：全光子量子中继器
7. Quantum communications with time-bin entangled photons: long distance quantum teleportation and quantum repeaters [O] . Gisin, N., Marcikic, I., de Riedmatten, H., 2003

机译：具有时间段纠缠光子的量子通信：长距离量子隐形传态和量子中继器

Development of a Quantum Repeater for Long-Distance Quantum Communication Using Photonic Information Storage

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