English

General Quantum Key Distribution in Higher Dimension

Quantum Physics 2012-02-02 v3

Abstract

We study a general quantum key distribution protocol in higher dimension. In this protocol, quantum states in arbitrary g+1g+1 (1gd1\le g\le d) out of all d+1d+1 mutually unbiased bases in a d-dimensional system can be used for the key encoding. This provides a natural generalization of the quantum key distribution in higher dimension and recovers the previously known results for g=1g=1 and dd. In our investigation, we study Eve's attack by two slightly different approaches. One is considering the optimal cloner for Eve, and the other, defined as the optimal attack, is maximizing Eve's information. We derive results for both approaches and show the deviation of the optimal cloner from the optimal attack. With our systematic investigation of the quantum key distribution protocols in higher dimension, one may balance the security gain and the implementation cost by changing the number of bases in the key encoding. As a side product, we also prove the equivalency between the optimal phase covariant quantum cloning machine and the optimal cloner for the g=d1g=d-1 quantum key distribution.

Keywords

Cite

@article{arxiv.1108.4540,
  title  = {General Quantum Key Distribution in Higher Dimension},
  author = {Zhao-Xi Xiong and Han-Duo Shi and Yi-Nan Wang and Li Jing and Jin Lei and Liang-Zhu Mu and Heng Fan},
  journal= {arXiv preprint arXiv:1108.4540},
  year   = {2012}
}
R2 v1 2026-06-21T18:54:02.765Z