Unconditional security from noisy quantum storage
Abstract
We consider the implementation of two-party cryptographic primitives based on the sole assumption that no large-scale reliable quantum storage is available to the cheating party. We construct novel protocols for oblivious transfer and bit commitment, and prove that realistic noise levels provide security even against the most general attack. Such unconditional results were previously only known in the so-called bounded-storage model which is a special case of our setting. Our protocols can be implemented with present-day hardware used for quantum key distribution. In particular, no quantum storage is required for the honest parties.
Cite
@article{arxiv.0906.1030,
title = {Unconditional security from noisy quantum storage},
author = {Robert Koenig and Stephanie Wehner and Juerg Wullschleger},
journal= {arXiv preprint arXiv:0906.1030},
year = {2013}
}
Comments
25 pages (IEEE two column), 13 figures, v4: published version (to appear in IEEE Transactions on Information Theory), including bit wise min-entropy sampling. however, for experimental purposes block sampling can be much more convenient, please see v3 arxiv version if needed. See arXiv:0911.2302 for a companion paper addressing aspects of a practical implementation using block sampling