Anonymous Quantum Nonlocality

Liang, Yeong-Cherng; Curchod, Florian J.; Bowles, Joseph; Gisin, Nicolas

doi:10.1103/physrevlett.113.130401

Cited by 32 publications

(61 citation statements)

References 54 publications

(79 reference statements)

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“…Of course, in the light of the frameworks discussed in Refs. [49,50,54], the bounds that we have computed are also useful as deviceindependent [7] witnesses for nontrivial properties of the underlying quantum systems.…”

Section: Discussionmentioning

confidence: 99%

“…In particular, for all those Bell inequalities where there is a gap between its maximal quantum violation (column three) and the maximum value of Q T i 6 (columns eleven to thirteen), we can possibly use the extent to which the inequality is violated to conclude directly from the measurement statistics (i.e., in a device-independent [7] manner) the presence of a genuine tripartite entangled state. For example, with the appropriate bound in place, the quantum violation of inequality 7 [49] can be used as a device-independent witness for genuine tripartite entanglement [50]:…”

Section: Refinements To the Almost Quantum Setmentioning

confidence: 99%

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Almost-quantum correlations and their refinements in a tripartite Bell scenario

2017

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We study the set of almost quantum correlations and their refinements in the simplest tripartite Bell scenario where each party is allowed to perform two dichotomic measurements. In contrast to its bipartite counterpart, we find that there already exist facet Bell inequalities that witness almost quantum correlations beyond quantum theory in this simplest tripartite Bell scenario. Furthermore, we study the relation between the almost quantum set and the hierarchy of supersets to the quantum set due to Navascués-Pironio-Acín (NPA) [Phys. Rev. Lett. 98, 010401 (2007)]. While the former lies between the first and the third level of the NPA hierarchy, we find that its second level does not contain and is not contained within the almost quantum set. Finally, we investigate the hierarchy of refinements to the almost quantum set due to Moroder et al. [Phys. Rev. Lett. 111, 030501 (2013)], which converges to the set of quantum correlations producible by quantum states having positive partial transposition. This allows us to consider (approximations of) the "biseparable" subsets of the almost-quantum set as well as of the quantum set of correlations, and thereby gain further insights into the subtle similarities and differences between the two sets. In addition, they allow us to identify candidate Bell-like inequalities that can serve as device-independent witnesses for genuine tripartite entanglement.

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Section: Discussionmentioning

confidence: 99%

Section: Refinements To the Almost Quantum Setmentioning

confidence: 99%

Almost-quantum correlations and their refinements in a tripartite Bell scenario

2017

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“…Then to prove that these correlations are not ( n 2 − 1) producible for the same set of resources, it was shown in Ref. [16] that except for even n with odd n 2 , these correlations are not 3-separable, i.e., cannot be reproduced by a separation of the n parties into three groups. As for R = Q, an MGS = n for odd n [16] follows from the fact that the corresponding correlation violates a device-independent witness for genuine n-partite entanglement [20,24] constructed from the Mermin-ArdehaliBelinskii-Klyshko (MABK) Bell expression [36,37].…”

Section: A Family Of N-partite Examples With Fully Characterized Mgsmentioning

confidence: 99%

“…However, relatively little is known [13,14] in the multipartite scenarios, where other interesting features are also present, such as the monogamy of nonlocal correlations (see, e.g., Refs. [7,15] and references therein) and the possibility of them being anonymous [16]. * florian.curchod@icfo.es † yliang@phys.ethz.ch Thus far, prior investigations on multipartite nonlocal correlations have focused predominantly on their m separability, namely, the possibility to reproduce them when the parties are separated into m groups [17]-specifically two groups [18][19][20][21][22][23]-and where the usage of some nonlocal resource R is only allowed within each group.…”

Section: Introductionmentioning

confidence: 99%

Quantifying multipartite nonlocality via the size of the resource

2015

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The generation of (Bell-)nonlocal correlations, i.e., correlations leading to the violation of a Bell-like inequality, requires the usage of a nonlocal resource, such as an entangled state. When given a correlation (a collection of conditional probability distributions) from an experiment or from a theory, it is desirable to determine the extent to which the participating parties would need to collaborate nonlocally for its (re)production. Here, we propose to achieve this via the minimal group size (MGS) of the resource, i.e., the smallest number of parties that need to share a given type of nonlocal resource for the above-mentioned purpose. In addition, we provide a general recipe-based on the lifting of Bell-like inequalities-to construct MGS witnesses for nonsignaling resources starting from any given ones. En route to illustrating the applicability of this recipe, we also show that when restricted to the space of full-correlation functions, nonsignaling resources are as powerful as unconstrained signaling resources. Explicit examples of correlations where their MGS can be determined using this recipe and other numerical techniques are provided.

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“…Interfacial phonon transport has also been investigated using molecular dynamics (MD) [4][5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20][21], atomistic Green's function (AGF) [22][23][24][25][26] and the Boltzmann transport equation (BTE) [27][28][29]. Each approach has its advantages and has been used to identify various phonon transport processes across heterojunctions.…”

Section: Introductionmentioning

confidence: 99%

Phonon transport across a Si–Ge interface: The role of inelastic bulk scattering

Maassen

Askarpour

2018

APL Materials

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Understanding phonon transport across heterojunctions is important to achieve a wide range of thermal transport properties. Using the McKelvey-Shockley flux method with first-principles modeling, we theoretically investigate the phonon transport properties of a Si-Ge interface with a focus on the role of inelastic bulk phonon processes. We observe significant inelastic scattering near the interface that redistributes the heat among the phonons as a result of non-equilibrium effects driven by the junction. These effects are most pronounced when the length of the junction is comparable to the average phonon mean-free-path. What controls these inelastic processes is elucidated.

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Anonymous Quantum Nonlocality

Cited by 32 publications

References 54 publications

Almost-quantum correlations and their refinements in a tripartite Bell scenario

Almost-quantum correlations and their refinements in a tripartite Bell scenario

Quantifying multipartite nonlocality via the size of the resource

Phonon transport across a Si–Ge interface: The role of inelastic bulk scattering

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