Entanglement, Bell Inequalities and Decoherence in Particle Physics

Bertlmann, Reinhold A.

doi:10.1007/11398448_1

Cited by 60 publications

(40 citation statements)

References 126 publications

(253 reference statements)

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“…Many experiments have since been performed and found excellent agreement with the prediction of QM (although no "loophole"-free Bell test has yet been performed) [3]. Most of these studies have used pairs of optical photons; it is also interesting to test EPR correlations in massive systems [4] at much higher energies [5]. In this Letter, we present a study of EPR correlation in the flavour of B-meson pairs produced at the Υ(4S).…”

mentioning

confidence: 99%

Measurement of Einstein-Podolsky-Rosen-Type Flavor Entanglement inΥ(4S)→B0B¯0Decays

Go¹,

Bay²,

Abe³

et al. 2007

Phys. Rev. Lett.

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mentioning

confidence: 99%

Measurement of Einstein-Podolsky-Rosen-Type Flavor Entanglement inΥ(4S)→B0B¯0Decays

Go¹,

Bay²,

Abe³

et al. 2007

Phys. Rev. Lett.

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“…, where the short-lived kaon K S and the long-lived kaon K L played the role of spin up ⇑ and spin down ⇓ , we found for the like-strangeness probability [187] (see also reviews [188,189])…”

Section: Entanglement In Particle Physics a Decoherence Of Entangmentioning

confidence: 60%

Bell’s Universe: A Personal Recollection

Bertlmann

2016

Quantum [Un]Speakables II

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My collaboration and friendship with John Bell is recollected. I will explain his outstanding contributions in particle physics, in accelerator physics, and his joint work with Mary Bell. Mary's work in accelerator physics is also summarized. I recall our quantum debates, mention some personal reminiscences, and give my personal view on Bell's fundamental work on quantum theory, in particular, on the concept of contextuality and nonlocality of quantum physics. Finally, I describe the huge influence Bell had on my own work, in particular on entanglement and Bell inequalities in particle physics and their experimental verification, and on mathematical physics, where some geometric aspects of the quantum states are illustrated.

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“…2 (see, e.g., [17]). The correlation (2.5) in QM violates the Bell inequality, provided that there exists an LRT describing the meson system in which the decay times (t l , t r ) play a similar role as the angle parameters in the usual photon polarization experiment.…”

Section: Possibility Of Lrt Tests Using Meson Pairsmentioning

confidence: 99%

Testing EPR locality using B-mesons

2008

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We study the possibility of testing local realistic theory (LRT) based on the Bell inequality for the correlations in the decay modes of entangled K or B-mesons. It is shown that such a test is possible for a restricted class of LRT, despite the passive nature of decay events and/or the non-unitary treatment of the correlations which invalidate the test for general LRT. Unfortunately, the present setup of the KEKB (Belle) experiment, where the coherence of entangled B-mesons has been confirmed recently, does not admit such a test due to the indeterminacy in the separate decay times of the entangled pairs.

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Entanglement, Bell Inequalities and Decoherence in Particle Physics

Cited by 60 publications

References 126 publications

Measurement of Einstein-Podolsky-Rosen-Type Flavor Entanglement inΥ(4S)→B0B¯0Decays

Measurement of Einstein-Podolsky-Rosen-Type Flavor Entanglement inΥ(4S)→B0B¯0Decays

Bell’s Universe: A Personal Recollection

Testing EPR locality using B-mesons

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