H. Rauch scite author profile

Non-local correlations between spatially separated systems have been extensively discussed in the context of the Einstein, Podolsky and Rosen (EPR) paradox and Bell's inequalities. Many proposals and experiments designed to test hidden variable theories and the violation of Bell's inequalities have been reported; usually, these involve correlated photons, although recently an experiment was performed with (9)Be(+) ions. Nevertheless, it is of considerable interest to show that such correlations (arising from quantum mechanical entanglement) are not simply a peculiarity of photons. Here we measure correlations between two degrees of freedom (comprising spatial and spin components) of single neutrons; this removes the need for a source of entangled neutron pairs, which would present a considerable technical challenge. A Bell-like inequality is introduced to clarify the correlations that can arise between observables of otherwise independent degrees of freedom. We demonstrate the violation of this Bell-like inequality: our measured value is 2.051 +/- 0.019, clearly above the value of 2 predicted by classical hidden variable theories.

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Experimental Test of Quantum Contextuality in Neutron Interferometry

Bartosik¹,

Klepp²,

Schmitzer³

et al. 2009

Phys. Rev. Lett.

205

246

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We performed an experimental test of the Kochen-Specker theorem based on an inequality derived from the Peres-Mermin proof, using spin-path (momentum) entanglement in a single neutron system. Following the strategy proposed by Cabello et al. [Phys. Rev. Lett. 100, 130404 (2008)10.1103/PhysRevLett.100.130404], a Bell-like state was generated, and three expectation values were determined. The observed violation 2.291 +/- 0.008 not less, dbl equals1 clearly shows that quantum mechanical predictions cannot be reproduced by noncontextual hidden-variable theories.

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Application of SAXS and SANS in evaluation of porosity, pore size distribution and surface area of coal

Radlinski

Mastalerz

Hinde

et al. 2004

International Journal of Coal Geology

397

232

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Test of a single crystal neutron interferometer

Rauch¹,

Treimer²,

1974

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A review of: “Neutron interferometry: Lessons in experimental quantum mechanics, by Helmut Rauch and Samuel Werner, Oxford University Press, © 2000”

Rauch¹,

Werner²,

Schmiedmayer³

2001

Neutron News

194

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H. Rauch

Violation of a Bell-like inequality in single-neutron interferometry

Experimental Test of Quantum Contextuality in Neutron Interferometry

Application of SAXS and SANS in evaluation of porosity, pore size distribution and surface area of coal

Test of a single crystal neutron interferometer

A review of: “Neutron interferometry: Lessons in experimental quantum mechanics, by Helmut Rauch and Samuel Werner, Oxford University Press, © 2000”

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