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Chip-integrated quantum signature network over 200 km

Yongqiang Du, Bing-Hong Li, Xin Hua, Xiaoyu Cao, Zhengeng Zhao, Feng Xie, Zhenrong Zhang, Hua‐Lei Yin, Xi Xiao, Kejin Wei

2025Light Science & Applications23 citationsDOIOpen Access PDF

Abstract

The development of quantum networks is paramount towards practical and secure communications. Quantum digital signatures (QDS) offer an information-theoretically secure solution for ensuring data integrity, authenticity, and non-repudiation, rapidly growing from proof-of-concept to robust demonstrations. However, previous QDS systems relied on expensive and bulky optical equipment, limiting large-scale deployment and reconfigurable networking construction. Here, we introduce and verify a chip-based QDS network, placing the complicated and expensive measurement devices in the central relay while each user needs only a low-cost transmitter. We demonstrate the network with a three-node setup using an integrated encoder chip and decoder chip. By developing a 1-decoy-state one-time universal hashing-QDS protocol, we achieve a maximum signature rate of 0.0414 times per second for a 1 Mbit messages over fiber distances up to 200 km, surpassing all current state-of-the-art QDS experiments. This study validates the feasibility of chip-based QDS, paving the way for large-scale deployment and integration with existing fiber infrastructure.

Topics & Concepts

Signature (topology)Computer scienceChipQuantum opticsTelecommunicationsPhysicsOpticsMathematicsGeometryQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum-Dot Cellular Automata
Chip-integrated quantum signature network over 200 km | Litcius