On the Einstein-Podolsky-Rosen paradox
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In this article, it was shown that even without such a separability or locality requirement, no hidden variable interpretation of quantum mechanics is possible and that such an interpretation has a grossly nonlocal structure, which is characteristic of any such theory which reproduces exactly the quantum mechanical predictions.Abstract:
THE paradox of Einstein, Podolsky and Rosen [1] was advanced as an argument that quantum mechanics could not be a complete theory but should be supplemented by additional variables These additional variables were to restore to the theory causality and locality [2] In this note that idea will be formulated mathematically and shown to be incompatible with the statistical predictions of quantum mechanics It is the requirement of locality, or more precisely that the result of a measurement on one system be unaffected by operations on a distant system with which it has interacted in the past, that creates the essential difficulty There have been attempts [3] to show that even without such a separability or locality requirement no "hidden variable" interpretation of quantum mechanics is possible These attempts have been examined elsewhere [4] and found wanting Moreover, a hidden variable interpretation of elementary quantum theory [5] has been explicitly constructed That particular interpretation has indeed a grossly nonlocal structure This is characteristic, according to the result to be proved here, of any such theory which reproduces exactly the quantum mechanical predictionsread more
Citations
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Nearly deterministic preparation of the perfect W state with weak cross-Kerr nonlinearities
Li Dong,Jun-Xi Wang,Qing-Yang Li,Hong-Zhi Shen,Hai-Kuan Dong,Xiao-Ming Xiu,Xiao-Ming Xiu,Ya-Jun Gao,Choo Hiap Oh +8 more
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Conformal invariance and quantum nonlocality in critical hybrid circuits
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Genuinely Multipartite Entangled Quantum States with Fully Local Hidden Variable Models and Hidden Multipartite Nonlocality
TL;DR: It is shown that, for any number of parties, there exist genuinely multipartite entangled states that admit a fully local hidden variable model, i.e., where all parties are separated, and that, although these states exhibit the strongest form of multipartites entanglement, they cannot lead to Bell inequality violation considering general nonsequential local measurements.
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A strong no-go theorem on the Wigner’s friend paradox
Kok Wei Bong,Aníbal Utreras-Alarcón,Farzad Ghafari,Yeong-Cherng Liang,Nora Tischler,Eric G. Cavalcanti,Geoff J. Pryde,Howard M. Wiseman +7 more
TL;DR: In this article, it was shown that if quantum evolution is controllable on the scale of an observer, then one of the Wigner's friend paradox inequalities (i.e., every observed event exists absolutely, not relatively) must be false.
References
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Can Quantum-Mechanical Description of Physical Reality Be Considered Complete?
TL;DR: Consideration of the problem of making predictions concerning a system on the basis of measurements made on another system that had previously interacted with it leads to the result that one is led to conclude that the description of reality as given by a wave function is not complete.
Journal ArticleDOI
Discussion of Experimental Proof for the Paradox of Einstein, Rosen, and Podolsky
D. Bohm,Yakir Aharonov +1 more
TL;DR: A brief review of the physical significance of the paradox of Einstein, Rosen, and Podolsky is given, and it is shown that it involves a kind of correlation of the properties of distant noninteracting systems, which is quite different from previously known kinds of correlation as discussed by the authors.