Wagner, R., Kersten, W., Lemmel, H., Sponar, S., & Hasegawa, Y. (2023). Quantum causality emerging in a delayed-choice quantum Cheshire Cat experiment with neutrons. Scientific Reports, 13(1), Article 3865. https://doi.org/10.1038/s41598-023-29970-6
E141-04 - Forschungsbereich Neutron- and Quantum Physics E141-02 - Forschungsbereich Atom Physics and Quantum Optics
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Journal:
Scientific Reports
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ISSN:
2045-2322
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Date (published):
8-Mar-2023
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Number of Pages:
13
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Publisher:
NATURE PORTFOLIO
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Peer reviewed:
Yes
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Keywords:
Neutron interferometry; quantum Cheshire Cat
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Abstract:
We report an experiment with neutrons in a silicon perfect crystal interferometer, that realizes a quantum Cheshire Cat in a delayed choice setting. In our setup the quantum Cheshire Cat is established by spatially separating the particle and its property (i.e. the neutron and its spin) into the two different paths of the interferometer. The condition for a delayed choice setting is achieved by postponing the choice of path assignment for the quantum Cheshire Cat, i.e. which path is taken by the particle and which by its property, until the point in time when the neutron wave function has already split and entered the interferometer. The results of the experiment suggest not only the fact that the neutrons and its spin are separated and take different paths in the interferometer, but also quantum-mechanical causality is implied, insomuch that the behavior of a quantum system is affected by the choice of the selection at a later point in time.
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Research facilities:
TRIGA Mark II-Nuklearreaktor
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Project title:
weAk Measurements & Uncertainty in NeuTron optics: P30677-N36 (FWF - Österr. Wissenschaftsfonds) New uncertainty relations and wave-particle duality studied with neutrons: P27666-N20 (FWF - Österr. Wissenschaftsfonds)
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Project (external):
KAKENHI
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Project ID:
18H03466
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Research Areas:
Quantum Metrology and Precision Measurements: 100%
