中文

Single-sideband-interference twin-field quantum key distribution without global phase locking

量子物理 2026-06-26 v1

摘要

Twin-field quantum key distribution (TF QKD) can overcome the fundamental rate loss limit of repeaterless quantum links, but its practical deployment has long been hindered by the requirement of global phase locking between two independent lasers. By revisiting the fundamental principles of optical interference, this work reveals that interference in TF QKD inherently relies only on the instantaneous phase alignment of two independent optical pulses at the moment they temporally overlap, rather than on continuous global phase synchronization. Guided by this insight, we propose and demonstrate a single-sideband-interference TF-QKD protocol that eliminates global phase locking. Each user employs an IQ modulator to generate a weak single sideband as the quantum signal, while the intrinsically phase-correlated optical carrier propagates as a real-time phase reference. Carrier interference at the receiver enables real-time phase extraction and feedback compensation for the sidebands. Unlike prior no phase locking approaches requiring second- or microsecond-level coherence, in principle, our scheme reduces this requirement to nanoseconds. We achieve 98% interference visibility over 100.8 km fibre and secure key rates surpassing the PLOB bound in the high-loss regime, providing a simpler route towards practical long-distance quantum communication networks.

引用

@article{arxiv.2606.27792,
  title  = {Single-sideband-interference twin-field quantum key distribution without global phase locking},
  author = {Xingjian Li and Bingkun Wang and Jianyong Hu and Jianqiang Liu and Shuxiao Wu and Guosheng Feng and Zhixing Qiao and Changgang Yang and Ruiyun Chen and Chengbing Qin and Guofeng Zhang and Liantuan Xiao and Suotang Jia},
  journal= {arXiv preprint arXiv:2606.27792},
  year   = {2026}
}