Continuous-variable quantum enigma machines for long-distance key distribution
Abstract
Quantum physics allows for unconditionally secure communication through insecure communication channels. The achievable rates of quantum-secured communication are fundamentally limited by the laws of quantum physics and in particular by the properties of entanglement. For a lossy communication line, this implies that the secret-key generation rate vanishes at least exponentially with the communication distance. We show that this fundamental limitation can be violated in a realistic scenario where the eavesdropper can store quantum information for only a finite, yet arbitrarily long, time. We consider communication through a lossy bononic channel (modeling linear loss in optical fibers) and we show that it is in principle possible to achieve a constant rate of key generation of one bit per optical mode over arbitrarily long communication distances.
Cite
@article{arxiv.1501.07212,
title = {Continuous-variable quantum enigma machines for long-distance key distribution},
author = {Cosmo Lupo and Seth Lloyd},
journal= {arXiv preprint arXiv:1501.07212},
year = {2015}
}
Comments
13 pages. V2: new title, new result on active attacks, increased rigour in the security proof