Litcius/Paper detail

Implementation of a 46-node quantum metropolitan area network

Teng‐Yun Chen, Xiao Jiang, Shi-Biao Tang, Lei Zhou, Xiao Yuan, Hongyi Zhou, Jian Wang, Yang Liu, Luo-Kan Chen, Wei-Yue Liu, Hongfei Zhang, Ke Cui, Hao Liang, Xiao-Gang Li, Yingqiu Mao, Liujun Wang, Sibo Feng, Qing Chen, Qiang Zhang, Li Li, Nai-Le Liu, Cheng-Zhi Peng, Xiongfeng Ma, Yong Zhao, Jian-Wei Pan

2021npj Quantum Information132 citationsDOIOpen Access PDF

Abstract

Abstract Quantum key distribution (QKD) enables secure key exchanges between two remote users. The ultimate goal of secure communication is to establish a global quantum network. The existing field tests suggest that quantum networks are feasible. To achieve a practical quantum network, we need to overcome several challenges including realizing versatile topologies for large scales, simple network maintenance, extendable configuration and robustness to node failures. To this end, we present a field operation of a quantum metropolitan-area network with 46 nodes and show that all these challenges can be overcome with cutting-edge quantum technologies. In particular, we realize different topological structures and continuously run the network for 31 months, by employing standard equipment for network maintenance with an extendable configuration. We realize QKD pairing and key management with a sophisticated key control centre. In this implementation, the final keys have been used for secure communication such as real-time voice telephone, text messaging and file transmission with one-time pad encryption, which can support 11 pairs of users to make audio calls simultaneously. Combined with intercity quantum backbone and ground–satellite links, our metropolitan implementation paves the way toward a global quantum network.

Topics & Concepts

Computer scienceQuantum networkComputer networkMetropolitan area networkQuantum key distributionNetwork topologyEncryptionNode (physics)Secure communicationQuantum cryptographyRobustness (evolution)Key (lock)Distributed computingQuantum information scienceQuantum computerQuantumQuantum informationComputer securityLocal area networkQuantum entanglementEngineeringGeneBiochemistryChemistryQuantum mechanicsPhysicsStructural engineeringQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum Computing Algorithms and Architecture
Implementation of a 46-node quantum metropolitan area network | Litcius