Author:
Zhou 周 Chun 淳,Zhao 赵 Yan-Mei 燕美,Yang 杨 Xiao-Liang 晓亮,Lu 陆 Yi-Fei 宜飞,Zhou 周 Yu 雨,Jiang 姜 Xiao-Lei 晓磊,Wang 汪 Hai-Tao 海涛,Wang 汪 Yang 洋,Li 李 Jia-Ji 家骥,Jiang 江 Mu-Sheng 木生,Wang 汪 Xiang 翔,Zhang 张 Hai-Long 海龙,Li 李 Hong-Wei 宏伟,Bao 鲍 Wan-Su 皖苏
Abstract
Abstract
The reference-frame-independent (RFI) quantum key distribution (QKD) is suitable for satellite-based links by removing the active alignment on the reference frames. However, how the beam wandering influences the performance of RFI-QKD remains a pending issue in satellite-to-ground links. In this paper, based on the mathematical model for characterizing beam wandering, we present the security analysis for satellite-to-ground RFI-QKD and analytically derive formulas for calculating the secret key rate with beam wandering. Our simulation results show that the performance of RFI-QKD is better than the Bennett–Brassard 1984 (BB84) QKD with beam wandering in asymptotic case. Furthermore, the degree of influences of beam wandering is specifically presented for satellite-to-ground RFI-QKD when statistical fluctuations are taken into account. Our work can provide theoretical support for the realization of RFI-QKD using satellite-to-ground links and have implications for the construction of large-scale satellite-based quantum networks.