Deterministic Distribution of Multipartite Entanglement and Steering in a Quantum Network by Separable States

Wang Meihong; Xiang Yu; Kang Haijun; Han Dongmei; Liu Yang; He Qiongyi; Gong Qihuang; Su Xiaolong; Peng Kunchi

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Deterministic Distribution of Multipartite Entanglement and Steering in a Quantum Network by Separable States

机译：不同状态Quantum网络中多重石纠缠和转向的确定性分布

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As two valuable quantum resources, Einstein-Podolsky-Rosen entanglement and steering play important roles in quantum-enhanced communication protocols. Distributing such quantum resources among multiple remote users in a network is a crucial precondition underlying various quantum tasks. We experimentally demonstrate the deterministic distribution of two- and three-mode Gaussian entanglement and steering by transmitting separable states in a network consisting of a quantum server and multiple users. In our experiment, entangled states are not prepared solely by the quantum server, but are created among independent users during the distribution process. More specifically, the quantum server prepares separable squeezed states and applies classical displacements on them before spreading out, and users simply perform local beam-splitter operations and homodyne measurements after they receive separable states. We show that the distributed Gaussian entanglement and steerability are robust against channel loss. Furthermore, one-way Gaussian steering is achieved among users that is useful for further directional or highly asymmetric quantum information processing.

机译：作为两个有价值的量子资源，Einstein-Podolsky-Rosen纠缠和转向在量子增强的通信协议中发挥重要作用。在网络中的多个远程用户之间分发这种量子资源是各种量子任务的重要前提条件。我们通过在由量子服务器和多个用户组成的网络中传输可分离状态来实验证明了两种和三级高斯entancement和转向的确定性分布。在我们的实验中，纠缠状态不仅由量子服务器准备，而是在分发过程中的独立用户之间创建。更具体地，Quantum Server准备可分离的挤压状态，并在扩展之前应用于它们的经典位移，并且用户在接收可分离状态之后简单地执行本地波束分离器操作和Homodyne测量。我们表明，分布式高斯纠缠和可操纵性对信道损耗具有稳健性。此外，在对进一步方向或高度不对称量子信息处理有用的用户之间实现单向高斯转向。

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《Physical review letters》 |2020年第26期|260506.1-260506.7|共7页
作者
Wang Meihong; Xiang Yu; Kang Haijun; Han Dongmei; Liu Yang; He Qiongyi; Gong Qihuang; Su Xiaolong; Peng Kunchi;
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Shanxi Univ Inst Optoelect State Key Lab Quantum Opt & Quantum Opt Devices Taiyuan 030006 Peoples R China|Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China;

Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China|Peking Univ State Key Lab Mesoscop Phys Sch Phys Frontiers Sci Ctr Nanooptoelect Beijing 100871 Peoples R China|Peking Univ Collaborat Innovat Ctr Quantum Matter Beijing 100871 Peoples R China|Beijing Acad Quantum Informat Sci Beijing 100193 Peoples R China;

Shanxi Univ Inst Optoelect State Key Lab Quantum Opt & Quantum Opt Devices Taiyuan 030006 Peoples R China|Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China;

Shanxi Univ Inst Optoelect State Key Lab Quantum Opt & Quantum Opt Devices Taiyuan 030006 Peoples R China|Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China;

Shanxi Univ Inst Optoelect State Key Lab Quantum Opt & Quantum Opt Devices Taiyuan 030006 Peoples R China|Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China;

Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China|Peking Univ State Key Lab Mesoscop Phys Sch Phys Frontiers Sci Ctr Nanooptoelect Beijing 100871 Peoples R China|Peking Univ Collaborat Innovat Ctr Quantum Matter Beijing 100871 Peoples R China|Beijing Acad Quantum Informat Sci Beijing 100193 Peoples R China;

Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China|Peking Univ State Key Lab Mesoscop Phys Sch Phys Frontiers Sci Ctr Nanooptoelect Beijing 100871 Peoples R China|Peking Univ Collaborat Innovat Ctr Quantum Matter Beijing 100871 Peoples R China|Beijing Acad Quantum Informat Sci Beijing 100193 Peoples R China;

Shanxi Univ Inst Optoelect State Key Lab Quantum Opt & Quantum Opt Devices Taiyuan 030006 Peoples R China|Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China;

Shanxi Univ Inst Optoelect State Key Lab Quantum Opt & Quantum Opt Devices Taiyuan 030006 Peoples R China|Shanxi Univ Collaborat Innovat Ctr Extreme Opt Taiyuan 030006 Shanxi Peoples R China;

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1. Detection of entanglement in asymmetric quantum networks and multipartite quantum steering [J] . Cavalcanti D., Skrzypczyk P., Aguilar G. H., Nature Communications . 2015,第Auga期

机译：非对称量子网络中纠缠的检测和多部分量子导向
2. Detection of entanglement in asymmetric quantum networks and multipartite quantum steering [J] . D. Cavalcanti, P. Skrzypczyk, G. H. Aguilar, Nature Communications . 2015,第1期

机译：非对称量子网络中纠缠的检测和多部分量子导向
3. Entanglement witness criteria of strong-k-separability for multipartite quantum states [J] . Yan Siqing, Hou Jinchuan Quantum information processing . 2018,第7期

机译：纠缠证明多元素量子态强k可分离的证明标准
4. AI-Enabled Large-Scale Entanglement Distribution Quantum Networks [C] . R. Wang, S. K. Joshi, G. T. Kanellos, Optical Fiber Communications Conference and Exhibition . 2021

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5. Multipartite Entanglement: Transformations, Quantum Secret Sharing, Quantum Error Correction [D] . Helwig, Wolfram 2014

机译：多分纠缠：变换，量子秘密共享，量子误差校正
6. Detection of entanglement in asymmetric quantum networks and multipartite quantum steering [O] . D. Cavalcanti, P. Skrzypczyk, G. H. Aguilar, -1

机译：非对称量子网络中纠缠的检测和多部分量子导向
7. Detection of entanglement in asymmetric quantum networks and multipartite quantum steering [O] . Cavalcanti, D., Skrzypczyk, P., Aguilar, G. H., 10000

机译：非对称量子网络和多部分量子转向中纠缠的检测

Deterministic Distribution of Multipartite Entanglement and Steering in a Quantum Network by Separable States

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