Publication: Further results on entanglement detection and quantification from the correlation matrix criterion
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2008-02-15
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IOP
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Abstract
The correlation matrix (CM) criterion is a recently derived powerful sufficient condition for the presence of entanglement in bipartite quantum states of arbitrary dimensions. It has been shown that it can be stronger than the positive partial transpose (PPT) criterion, as well as the computable cross norm or realignment (CCNR) criterion in different situations. However, it remained as an open question whether there existed sets of states for which the CM criterion could be stronger than both criteria simultaneously. Here, we give an affirmative answer to this question by providing examples of entangled states that scape detection by both the PPT and CCNR criteria whose entanglement is revealed by the CM condition. We also show that the CM can be used to measure the entanglement of pure states and obtain lower bounds for the entanglement measure known as tangle for general (mixed) states.
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11 pages, no figures.-- MSC2000 code: 81P68.-- PACS nrs.: 03.67.Mn, 03.65.Ud.-- ArXiv pre-print available at: http://arxiv.org/abs/0705.2583
MR#: MR2435943 (2009h:81043)
Zbl 1133.81014
MR#: MR2435943 (2009h:81043)
Zbl 1133.81014
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[PACS] Entanglement and quantum nonlocality (e.g. EPR paradox, Bell's inequalities, GHZ states, etc.), [PACS] Entanglement measures, witnesses, and other characterizations
Bibliographic citation
Journal of Physics A: Mathematical and Theoretical, 2008, vol. 41, n. 6, 065309