English

Surpassing the PLOB bound in continuous-variable quantum secret sharing using a state-discrimination detector

Quantum Physics 2025-08-14 v1

Abstract

Continuous-variable quantum secret sharing (CVQSS) is a promising approach to ensuring multi-party information security. While CVQSS offers practical ease of implementation, its present performance remains limited. In this paper, we propose a novel CVQSS protocol integrated with a state-discrimination detector (SDD), dubbed SDD-CVQSS. In particular, we first develop the detailed procedure of SDD-CVQSS, which replaces the traditional coherent detector with an SDD and eliminates the long-standing necessary step of establishing multiple point-to-point quantum key distribution links between all users and the dealer. We then elaborate on the principle of the specifically designed SDD, which can efficiently discriminate mixed states with a much lower error probability. Finally, we construct a security model for SDD-CVQSS and derive its security bound against beam-splitting collective attacks. Numerical simulations show that SDD-CVQSS outperforms conventional CVQSS in both maximum transmission distance and secret key rate, even surpassing the PLOB bound. Additionally, we find that the performance degradation of SDD-CVQSS in long-distance transmission scenarios can be effectively compensated for using a post-selection scheme, providing a feasible way to achieve high-performance CVQSS.

Keywords

Cite

@article{arxiv.2508.09445,
  title  = {Surpassing the PLOB bound in continuous-variable quantum secret sharing using a state-discrimination detector},
  author = {Qin Liao and Chong Tang and Qingquan Peng and Chao Ding and Lingjin Zhu and Yijun Wang and Xiquan Fu},
  journal= {arXiv preprint arXiv:2508.09445},
  year   = {2025}
}
R2 v1 2026-07-01T04:47:26.359Z