Hybrid High-Dimensional Quantum Key Distribution for a Composable Quantum Network
Fang‐Xiang Wang, Qi-Hang Lu, Wei Chen, Shuang Wang, Haiyang Fu, Yin-Jie Lu, Peng-Lei Hao, Jia-Lin Chen, Wenjing Ding, Jianyu Ma, De‐Yong He, Zhen−Qiang Yin, Zheng Zhou, Guang‐Can Guo, Zheng‐Fu Han
Abstract
High-dimensional quantum key distribution (HD-QKD) possesses a higher noise-tolerance ability and secure key rate. In the work presented here, by developing a mapping method for multiple degrees of freedom (DOFs), we propose and implement a HD-QKD system with a quantum bit error rate as low as 0.57%. Our HD-QKD system can stably achieve high secure key rates and is composable, allowing one to build HD quantum networks compatible with multiple DOFs. The results indicate that the proposed scheme could bridge HD and two-dimensional terminals encoded in different DOFs and could support large-scale deployment of quantum networks with high performance. Our work significantly enhances the performance of HD-QKD and strengthens the practical applications of large-scale quantum networks in a hybrid way.