1974
DOI: 10.1016/0375-9601(74)90132-7
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Test of a single crystal neutron interferometer

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Cited by 455 publications
(228 citation statements)
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“…It is an experiment in neutron interferometry performed by Helmut Rauch and his collaborators. The preparation of the experiment was published in [1], while the actual experiment, as presented here, was performed a year later and the results were published in [2]. Rauch has also written a 'review article' on the numerous neutron experiments that have since been performed [3].…”
Section: Magic With Neutronsmentioning
confidence: 99%
See 1 more Smart Citation
“…It is an experiment in neutron interferometry performed by Helmut Rauch and his collaborators. The preparation of the experiment was published in [1], while the actual experiment, as presented here, was performed a year later and the results were published in [2]. Rauch has also written a 'review article' on the numerous neutron experiments that have since been performed [3].…”
Section: Magic With Neutronsmentioning
confidence: 99%
“…We cannot go into all details in this paper and refer the reader to [1,2,3,4,5,6] for extensive analyses of Rauch's experiment. Meanwhile, more than two decades later, experimentators play in the laboratory with quantum entities brought very explicitly in non-local states .…”
Section: Magic With Neutronsmentioning
confidence: 99%
“…Very refined and ingenious interferometers and detectors for electrons [1], neutrons [2][3][4], atoms [5][6][7], molecules [7,8] and photons [9,10] have been devised to demonstrate that the quantum interference pattern can be build up by means of the accumulation of single detection events. Even before the realization of these experiments, De Broglie [11] and Bohm [12] argued that particles with mass possess simultaneously wave and particle properties, and would move within an interferometer along trajectories determined by the guidance equation…”
Section: Introductionmentioning
confidence: 99%
“…where S(r, t) is the phase of the particle wave function Ψ(r, t) = |Ψ(r, t)|e iS(r,t)/ (2) which satisfies the time-dependent Schrdinger equation. Using the method proposed by De Broglie and Bohm, Philipidis et al [13] plotted the trajectories of massive particles in the double slit experiment [13], Dewdney showed trajectories for neutrons inside a (neutron) interferometer [14], and Sanz and MiretArts explained the Talbot effect for atoms by plotting their associated trajectories behind a diffraction grating [15].…”
Section: Introductionmentioning
confidence: 99%
“…Since the first demonstration of a perfect crystal neutron interferometer (NI) in 1974 [1], numerous experiments have been performed exploring both the nature of the neutron and its interactions [2,3]. Examples include the first observation of a quantum phase shift due to the Earth's gravitational field [4], demonstrating the 4π symmetry of spinor rotation [5], and measuring the effect of the Earth's rotation on the phase of the neutron (Sagnac effect) [6] among other fundamental experiments.…”
Section: Introductionmentioning
confidence: 99%