Related papers: Local distinguishability based genuinely quantum nonlocality without entanglement

Local distinguishability based genuinely quantum nonlocality without entanglement

URL: http://arxiv.org/abs/2011.10286v1
Date: Fri, 20 Nov 2020 09:10:51 GMT
Title: Local distinguishability based genuinely quantum nonlocality without entanglement
Authors: Mao-Sheng Li, Yan-Ling Wang, Fei Shi, and Man-Hong Yung
Abstract summary: We consider a weaker form of nonlocality called local distinguishability based genuine nonlocality. We present an elegant set of product states in bipartite systems that is locally indistinguishable. We obtain that genuinely nonlocal sets of fully product states exist for all possible multipartite quantum systems.
Score: 4.175755620596097
License: http://creativecommons.org/publicdomain/zero/1.0/
Abstract: Recently, Halder \emph{et al.} [Phys. Rev. Lett. \textbf{122}, 040403 (2019)] proposed the concept strong nonlocality without entanglement: an orthogonal set of fully product states in multipartite quantum systems that is locally irreducible for every bipartition of the subsystems. As the difficulty of the problem, most of the results are restricted to tripartite systems. Here we consider a weaker form of nonlocality called local distinguishability based genuine nonlocality. A set of orthogonal multipartite quantum states is said to be genuinely nonlocal if it is locally indistinguishable for every bipartition of the subsystems. In this work, we tend to study the latter form of nonlocality. First, we present an elegant set of product states in bipartite systems that is locally indistinguishable. After that, based on a simple observation, we present a general method to construct genuinely nonlocal sets of multipartite product states by using those sets that are genuinely nonlocal but with less parties. As a consequence, we obtain that genuinely nonlocal sets of fully product states exist for all possible multipartite quantum systems.

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