Quantum Cryptography in Noisy Channels
Quantum Physics
2007-05-23 v1
Abstract
We provide a complete proof of the security of quantum cryptography against any eavesdropping attack including coherent measurements even in the presence of noise. Polarization-based cryptographic schemes are shown to be equivalent to EPR-based schemes. We also show that the performance of a noisy channel approaches that of a noiseless one as the error rate tends to zero. (i.e., the secrecy capacity as .) One implication of our results is that one can {\it double} the efficiency of a most well-known quantum cryptographic scheme proposed by Bennett and Brassard simply by assigning vastly different probabilities to the two conjugate bases.
Cite
@article{arxiv.quant-ph/9511025,
title = {Quantum Cryptography in Noisy Channels},
author = {Hoi-Kwong Lo and H. F. Chau},
journal= {arXiv preprint arXiv:quant-ph/9511025},
year = {2007}
}
Comments
22 pages, REVTEX