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Continuous-variable measurement-device-independent quantum key distribution via quantum catalysis

Quantum Physics 2019-07-18 v2

Abstract

The continuous-variable measurement-device-independent quantum key distribution (CV-MDI-QKD) is a promising candidate for the immunity to side-channel attacks, but unfortunately seems to face the limitation of transmission distance in contrast to discrete-variable (DV) counterpart. In this paper, we suggest a method of improving the performance of CV-MDI-QKD involving the achievable secret key rate and transmission distance by using zero-photon catalysis (ZPC), which is indeed a noiseless attenuation process. The numerical stimulation results show that the transmission distance of ZPC-based CV-MDI-QKD under the extreme asymmetric case is better than that of the original protocol. Attractively, in contrast to the previous single-photon subtraction (SPS)-based CV-MDI-QKD, the proposed scheme enables a higher secret key rate and a longer transmission distance. In particular, the ZPC-based CV-MDI-QKD can tolerate more imperfections of detectors than both the original protocol and the SPS-based CV-MDI-QKD.

Keywords

Cite

@article{arxiv.1907.03383,
  title  = {Continuous-variable measurement-device-independent quantum key distribution via quantum catalysis},
  author = {Wei Ye and Hai Zhong and Xiaodong Wu and Liyun Hu and Ying Guo},
  journal= {arXiv preprint arXiv:1907.03383},
  year   = {2019}
}

Comments

8 pages, 6 figures

R2 v1 2026-06-23T10:14:22.430Z