Litcius/Paper detail

Field test of mode-pairing quantum key distribution

Hao-Tao Zhu, Yizhi Huang, Wen-Xin Pan, Chao-Wu Zhou, Jianjun Tang, Hong He, Ming Cheng, Xiandu Jin, Mi Zou, Shibiao Tang, Xiongfeng Ma, Teng‐Yun Chen, Jian-Wei Pan

2024Optica29 citationsDOIOpen Access PDF

Abstract

Quantum key distribution is a cornerstone of quantum technology, offering information-theoretical secure keys for remote parties. With many quantum communication networks established globally, the mode-pairing protocol stands out for its efficacy over inter-city distances using simple setups, emerging as a promising solution. In this study, we employ the mode-pairing scheme into existing inter-city fiber links, conducting field tests across distances ranging from tens to about a hundred kilometers. Our system achieves a key rate of 1.217 kbit/s in a 195.85 km symmetric link and 3.089 kbit/s in a 127.92 km asymmetric link without global phase locking. The results demonstrate that the mode-pairing protocol can achieve key rates comparable to those of a single quantum link between two trusted nodes on the Beijing-Shanghai backbone line, effectively reducing the need for half of the trusted nodes. These field tests confirm the mode-pairing scheme’s adaptability, efficiency, and practicality, positioning it as a highly suitable protocol for quantum networks.

Topics & Concepts

PairingQuantum key distributionComputer scienceKey (lock)Protocol (science)Mode (computer interface)Computer networkQuantum networkQuantumDistributed computingQuantum computerPhysicsComputer securityQuantum mechanicsAlternative medicineOperating systemSuperconductivityMedicinePathologyQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum optics and atomic interactions