Quantum Key Distribution Over a Channel with Scattering
Qi-Hang Lu, Fang‐Xiang Wang, Kun Huang, X. Wu, Ze-Hao Wang, Shuang Wang, De‐Yong He, Zhen−Qiang Yin, Guang‐Can Guo, Wei Chen, Zheng‐Fu Han
Abstract
Scattering of light by cloud, haze, and fog decreases the transmission efficiency of communication channels in quantum key distribution (QKD), reduces the system's practical security, and thus constrains the deployment of free-space QKD. Here, we employ wave-front shaping technology to compensate distorted optical signals in high-loss scattering quantum channels and fulfill a polarization-encoded BB84 QKD experiment. With this quantum-channel compensation technology, we achieve a typical enhancement of about 250 in transmission efficiency and build a secure communication link even considering finite key length effect, while the link is impossible to share secure keys before optimization. The method applied in the QKD system shows the potential to expand the application range of QKD systems from lossless channels to highly scattered ones and therefore enhances the deployment ability of a global quantum communication network.