Unbounded Violation of Tripartite Bell Inequalities

Pérez-Garcı́a, David; Wolf, Michael M.; Palazuelos, Carlos; Villanueva, Ignacio; Junge, Marius

doi:10.1007/s00220-008-0418-4

Cited by 114 publications

(158 citation statements)

References 77 publications

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“…In a broader sense, the aim of this concept is to put a lower bound on the Hilbert space dimension needed to reproduce the statistics arising from a Bell experiment. Dimension witnesses have been found or conjectured in many different scenarios, such as for the bipartite setting [13,14,17,[31][32][33] for the multipartite setting [34] and even for the case of a single system [35].…”

Section: Discussionmentioning

confidence: 99%

Maximal violation of a bipartite three-setting, two-outcome Bell inequality using infinite-dimensional quantum systems

2010

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The I3322 inequality is the simplest bipartite two-outcome Bell inequality beyond the ClauserHorne-Shimony-Holt (CHSH) inequality, consisting of three two-outcome measurements per party. In case of the CHSH inequality the maximal quantum violation can already be attained with local two-dimensional quantum systems, however, there is no such evidence for the I3322 inequality. In this paper a family of measurement operators and states is given which enables us to attain the largest possible quantum value in an infinite dimensional Hilbert space. Further, it is conjectured that our construction is optimal in the sense that measuring finite dimensional quantum systems is not enough to achieve the true quantum maximum. We also describe an efficient iterative algorithm for computing quantum maximum of an arbitrary two-outcome Bell inequality in any given Hilbert space dimension. This algorithm played a key role to obtain our results for the I3322 inequality, and we also applied it to improve on our previous results concerning the maximum quantum violation of several bipartite two-outcome Bell inequalities with up to five settings per party.

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Section: Discussionmentioning

confidence: 99%

Maximal violation of a bipartite three-setting, two-outcome Bell inequality using infinite-dimensional quantum systems

2010

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“…Nowadays, they are at the heart of the modern development of Quantum Information, with applications in a wide variety of areas: quantum key distribution [4,5], entanglement detection, multipartite interactive proof systems [6,7], communication complexity [8], Hilbert space dimension estimation [9,10,11,12], etc.…”

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confidence: 99%

“…One reason for that is that so far there was no suitable mathematical tool for them. In [12], we showed how for the special case of correlation Bell inequalities, Operator Space Theory-a modern field in mathematical analysis-provides exactly the right language and tools to tackle some of the more difficult problems. There we used operator space techniques to solve an old question of Tsirelson [15]: the existence of unbounded violations for tripartite correlation Bell inequalities.…”

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confidence: 99%

Operator Space Theory: A Natural Framework for Bell Inequalities

et al. 2010

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In this letter we show that the field of Operator Space Theory provides a general and powerful mathematical framework for arbitrary Bell inequalities, in particular regarding the scaling of their violation within quantum mechanics. We illustrate the power of this connection by showing that bipartite quantum states with local Hilbert space dimension n can violate a Bell inequality by a factor of order √ n log 2 n when observables with n possible outcomes are used. Applications to resistance to noise, Hilbert space dimension estimates and communication complexity are given.Bell inequalities [3] were originally proposed by Bell [1] in 1964 as a way of testing the validity of EinsteinPodolski-Rosen's believe that local hidden variable models are a possible underlying explanation of physical reality [2]. Nowadays, they are at the heart of the modern development of Quantum Information, with applications in a wide variety of areas: quantum key distribution [4,5], entanglement detection, multipartite interactive proof systems [6,7], communication complexity [8], Hilbert space dimension estimation [9,10,11,12], etc.Despite their importance, very few is known beyond very particular cases and examples. One reason for that is that so far there was no suitable mathematical tool for them. In [12], we showed how for the special case of correlation Bell inequalities, Operator Space Theory-a modern field in mathematical analysis-provides exactly the right language and tools to tackle some of the more difficult problems. There we used operator space techniques to solve an old question of Tsirelson [15]: the existence of unbounded violations for tripartite correlation Bell inequalities. At the same time this established a new result in (formerly) pure mathematics about the generalization of a celebrated result by Grothendieck. Following and extending these lines, we are now able to show that Operator Space Theory is indeed the right mathematical theory to deal with arbitrary Bell inequalities, not restricted to the correlation case based on two-outcome measurements.The aim of the present paper is to sketch the deep relation between the field of Operator Space Theory on the one hand and quantum mechanical Bell inequality violations on the other. Once this connection is established, the language of Operator Spaces allows to derive various new results and considerably strengthen known ones. The mathematical part of these derivations goes beyond the scope of the present paper and is presented elsewhere [13].We illustrate the power of the new methods by showing that quantum mechanics allows for violations of bipartite Bell inequalities of the order √ n log 2 n when given n dimensional Hilbert spaces and observables with n possible measurement outcomes. This result in turn implies better Hilbert space dimension witnesses and non-local quantum distributions with better resistance to noisesomething desirable on the way to loophole free Bell tests. We also discuss implications for quantum communication complexity theory. Bell InequalitiesW...

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“…But this is not already the case for quantum violation of bipartite Bell inequalities on joint probabilities and last years bounds on the maximal quantum violation of Bell inequalities were intensively discussed in the literature via different mathematical tools [7][8][9][10][11][12][13][14][15] .…”

Section: Introductionmentioning

confidence: 99%

New concise upper bounds on quantum violation of general multipartite Bell inequalities

Loubenets

2017

Journal of Mathematical Physics

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Unbounded Violation of Tripartite Bell Inequalities

Cited by 114 publications

References 77 publications

Maximal violation of a bipartite three-setting, two-outcome Bell inequality using infinite-dimensional quantum systems

Maximal violation of a bipartite three-setting, two-outcome Bell inequality using infinite-dimensional quantum systems

Operator Space Theory: A Natural Framework for Bell Inequalities

New concise upper bounds on quantum violation of general multipartite Bell inequalities

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