Add to BibSonomy
Abstract
Time synchronization is essential for quantum key distribution (QKD) applications, not only in fiber links and terrestrial free-space links but also in satellite-to-ground links. To compensate for the time drift caused by the Doppler effect and adapt to the unstable optical link in satellite-to-ground QKD, previous demonstrations adopted a two-stage solution, combining a global navigation satellite system (GNSS) and light synchronization. In this paper, we propose a novel aperiodic synchronization scheme that can achieve high-precision time synchronization by encoding time information into pseudo-random laser pulse positions. This solution can simplify the use of GNSS hardware, thus reducing the complexity and cost of the system. Successful experiments have been conducted to demonstrate the feasibility and robustness of the presented scheme, resulting in a synchronization precision of 208–222 ps even when 90% of the light signals are lost. Further analysis of the Doppler effect between the satellite and the ground station is also given. The presented robust aperiodic synchronization can be widely applied to future satellite-based quantum information applications.
© 2021 Optical Society of America
Full Article | PDF ArticleMore Like This
Chao-Ze Wang, Yang Li, Wen-Qi Cai, Wei-Yue Liu, Sheng-Kai Liao, and Cheng-Zhi Peng
Opt. Express 29(19) 29595-29603 (2021)
Ping Wang, Peng Huang, Rui Chen, and Guihua Zeng
Opt. Express 29(16) 25048-25063 (2021)
Peng Liu and Hua-Lei Yin
OSA Continuum 2(10) 2883-2890 (2019)