Local Quantum Pure-state Identification without Classical Knowledge
Abstract
Suppose we want to distinguish two quantum pure states. We consider the case in which no classical knowledge on the two states is given and only a pair of samples of the two states is available. This problem is called quantum pure-state identification problem. Our task is to optimize the mean identification success probability, which is averaged over an independent unitary invariant distribution of the two reference states. In this paper, the two states are assumed bipartite states which are generally entangled. The question is whether the maximum mean identification success probability can be attained by means of an LOCC (Local Operations and Classical Communication) measurement scheme. We will show that this is possible by constructing a POVM which respects the conditions of LOCC.
Cite
@article{arxiv.0712.2906,
title = {Local Quantum Pure-state Identification without Classical Knowledge},
author = {Y. Ishida and T. Hashimoto and M. Horibe and A. Hayashi},
journal= {arXiv preprint arXiv:0712.2906},
year = {2008}
}
Comments
5 pages, no figures; v2: reference added, representation improved