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- Q7003121 subject Q8672814.
- Q7003121 abstract "In neutron time-of-flight scattering, a form of inelastic neutron scattering, the initial position and velocity of a pulse of neutrons is fixed, and their final position and the time after the pulse that the neutrons are detected are measured. By the principle of conservation of momentum, these pairs of coordinates may be transformed into momenta and energies for the neutrons, and the experimentalist may use this information to calculate the momentum and energy transferred to the sample. Inverse geometry spectrometers are also possible. In this case, the final position and velocity are fixed, and the incident coordinates varied.Time-of-flight scattering can be performed at either a research reactor or a spallation source.".
- Q7003121 wikiPageWikiLink Q11681119.
- Q7003121 wikiPageWikiLink Q1438105.
- Q7003121 wikiPageWikiLink Q1536754.
- Q7003121 wikiPageWikiLink Q176691.
- Q7003121 wikiPageWikiLink Q2348.
- Q7003121 wikiPageWikiLink Q259517.
- Q7003121 wikiPageWikiLink Q351857.
- Q7003121 wikiPageWikiLink Q368333.
- Q7003121 wikiPageWikiLink Q379848.
- Q7003121 wikiPageWikiLink Q576621.
- Q7003121 wikiPageWikiLink Q7573015.
- Q7003121 wikiPageWikiLink Q781606.
- Q7003121 wikiPageWikiLink Q8672814.
- Q7003121 wikiPageWikiLink Q9289166.
- Q7003121 comment "In neutron time-of-flight scattering, a form of inelastic neutron scattering, the initial position and velocity of a pulse of neutrons is fixed, and their final position and the time after the pulse that the neutrons are detected are measured. By the principle of conservation of momentum, these pairs of coordinates may be transformed into momenta and energies for the neutrons, and the experimentalist may use this information to calculate the momentum and energy transferred to the sample.".
- Q7003121 label "Neutron time-of-flight scattering".