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Reference-frame-independent Quantum secure direct communication

Quantum Physics 2026-01-14 v1

Abstract

Current quantum secure direct communication (QSDC) protocols guarantee communication security by estimating the error rates of photons in the X and Z bases. This take the reference frame calibration between communicating parties as a necessary prerequisite. However, in mobile communications scenarios, achieving continuous and accurate reference frame calibration poses significant challenges. To address this issue, this paper proposes a reference-frame-independent (RFI) QSDC protocol. This protocol only requires ensuring the calibration accuracy of one direction of the reference frame, while allowing a misalignment angle β\beta in the other two directions. To improve the protocol's robustness against reference frame fluctuations, we introduce a β\beta-independent parameter C into the security analysis framework and rederive the protocol's security bounds. Additionally, we construct a system model and optimize the pulse intensity of the signal states, enabling the protocol to achieve optimal performance under each level of channel attenuation. At an attenuation of 10 dB (corresponding to a communication distance of 25 km), the secrecy message capacities for β=0\beta= 0^{ \circ} and 4545^{ \circ} are 8.765×1068.765 \times10^{-6} bit/pulse and 4.150×1064.150 \times10^{-6} bit/pulse, respectively. Compared with the single-photon-based QSDC, the communication distance of the protocol proposed in this paper is significantly extended. When β=0\beta= 0^{ \circ} and 4545^{ \circ} , the maximum transmission distances of the RFI QSDC protocol are 27.875 km and 26.750 km, which is about 155.9 % and 149.7 % of that of the single-photon-based QSDC protocol.

Cite

@article{arxiv.2601.08238,
  title  = {Reference-frame-independent Quantum secure direct communication},
  author = {Jia-Wei Ying and Shi-Pu Gu and Xing-Fu Wang and Wei Zhong and Ming-Ming Du and Xi-Yun Li and Shu-Ting Shen and An-Lei Zhang and Lan Zhou and Yu-Bo Sheng},
  journal= {arXiv preprint arXiv:2601.08238},
  year   = {2026}
}
R2 v1 2026-07-01T09:02:09.797Z