Two local observables are sufficient to characterize maximally entangled states of N qubits

被引:40
|
作者
Yan, Fengli [1 ,2 ]
Gao, Ting [3 ]
Chitambar, Eric [4 ,5 ]
机构
[1] Hebei Normal Univ, Coll Phys Sci & Informat Engn, Shijiazhuang 050016, Peoples R China
[2] Hebei Normal Univ, Hebei Adv Thin Films Lab, Shijiazhuang 050016, Peoples R China
[3] Hebei Normal Univ, Coll Math & Informat Sci, Shijiazhuang 050016, Peoples R China
[4] Univ Toronto, Dept Phys, Toronto, ON M5S 3G4, Canada
[5] Univ Toronto, Dept Elect & Comp Engn, CQIQC, Toronto, ON M5S 3G4, Canada
来源
PHYSICAL REVIEW A | 2011年 / 83卷 / 02期
基金
中国国家自然科学基金; 加拿大自然科学与工程研究理事会;
关键词
QUANTUM CRYPTOGRAPHY; BELL; COMMUNICATION;
D O I
10.1103/PhysRevA.83.022319
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Maximally entangled states (MES) represent a valuable resource in quantum information processing. In N-qubit systems the MES are N-GHZ states [i.e., the collection of vertical bar GHZ(N)> = 1/root 2(vertical bar 00 ... 0 > + vertical bar 11 ... 1 >)] and its local unitary (LU) equivalences. While it is well known that such states are uniquely stabilized by N commuting observables, in this article we consider the minimum number of noncommuting observables needed to characterize an N-qubit MES as the unique common eigenstate. Here, we prove, rather surprisingly, that in this general case any N-GHZ state can be uniquely stabilized by only two observables. Thus, for the task of MES certification, only two correlated measurements are required with each party observing the spin of his or her system along one of two directions.
引用
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页数:4
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