Maximally entangled set of multipartite quantum states

J. I. De Vicente, C. Spee, B. Kraus

Publikation: Beitrag in FachzeitschriftArtikelBegutachtung

89 Zitate (Scopus)

Abstract

Entanglement is a resource in quantum information theory when state manipulation is restricted to local operations assisted by classical communication (LOCC). It is therefore of paramount importance to decide which LOCC transformations are possible and, particularly, which states are maximally useful under this restriction. While the bipartite maximally entangled state is well known (it is the only state that cannot be obtained from any other and, at the same time, it can be transformed to any other by LOCC), no such state exists in the multipartite case. In order to cope with this fact, we introduce here the notion of the maximally entangled set (MES) of n-partite states. This is the set of states which are maximally useful under LOCC manipulation; i.e., any state outside of this set can be obtained via LOCC from one of the states within the set and no state in the set can be obtained from any other state via LOCC. We determine the MES for states of three and four qubits and provide a simple characterization for them. In both cases, infinitely many states are required. However, while the MES is of measure zero for 3-qubit states, almost all 4-qubit states are in the MES. This is because, in contrast to the 3-qubit case, deterministic LOCC transformations are almost never possible among fully entangled four-partite states. We determine the measure-zero subset of the MES of LOCC convertible states. This is the only relevant class of states for entanglement manipulation.

OriginalspracheEnglisch
Aufsatznummer110502
FachzeitschriftPhysical Review Letters
Jahrgang111
Ausgabenummer11
DOIs
PublikationsstatusVeröffentlicht - 10 Sept. 2013
Extern publiziertJa

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