Observation of a motion-induced phase shift of neutron de Broglie waves passing through matter near a nuclear resonance

doi:10.1103/PhysRevA.39.931

Observation of a motion-induced phase shift of neutron de Broglie waves passing through matter near a nuclear resonance

We report the results of a neutron interferometry experiment where for the first time (to our knowledge) a phase shift of a neutron de Broglie wave induced by moving matter has been successfully measured. This experiment is the quantum-mechanical analog of the optical Fizeau effect. The observed phase shift is caused by the motion of matter itself, and not by the motion of its boundaries. The experimental results are found to be in good agreement with the theoretical predictions. Some unexpected and previously unreported neutron wave interference effects observed during the experiment are also reported.

Publication:

Physical Review A

Pub Date:

February 1989

DOI:

10.1103/PhysRevA.39.931

Bibcode:

1989PhRvA..39..931A

Keywords:

03.65.-w;
07.60.Ly;
28.20.-v;
Quantum mechanics;
Interferometers;
Neutron physics

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Observation of a motion-induced phase shift of neutron de Broglie waves passing through matter near a nuclear resonance

Abstract