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Statements

Subject Item
dbr:Neutron_spin_echo
dbo:wikiPageWikiLink
dbr:Neutron_resonance_spin_echo
Subject Item
dbr:Neutron_resonance_spin_echo
rdfs:label
Neutron resonance spin echo
rdfs:comment
Neutron resonance spin echo is a quasielastic neutron scattering technique developed by Gähler and Golub. In its classic form it is used analogously to conventional neutron spin echo (NSE) spectrometry for quasielastic scattering where tiny energy changes from the sample to the neutron have to be resolved. In contrast to NSE, the large magnetic solenoids are replaced by two resonant flippers respectively. This allows for variants in combination with triple axes spectrometers to resolve narrow linewidth of excitations or MIEZE (Modulation of IntEnsity with Zero Effort) for depolarizing conditions and incoherent scattering which are not possible with conventional NSE.
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dbc:Neutron_scattering
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1082873358
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dbr:Ferromagnets dbr:Quasielastic_neutron_scattering dbr:Spin_(physics) dbr:Magnetic_field dbr:Rabi_oscillation dbr:Neutron_spin_echo dbr:Brillouin_zone dbr:Spallation dbr:Phonons dbr:Larmor_precession dbr:National_Institute_of_Standards_and_Technology dbr:Forschungsreaktor_München_II dbr:Activation_energy dbr:Quasielastic_scattering dbr:Wavelength dbr:Stray_fields dbr:Neutron_temperature dbr:Oak_Ridge_National_Laboratory dbc:Neutron_scattering dbr:Larmor_frequency dbr:Superconductors dbr:Helmholtz-Zentrum_Berlin dbr:Magnons dbr:Precession dbr:Relaxation_(physics) dbr:Mu-metal dbr:Japan_Proton_Accelerator_Research_Complex dbr:Neutron_triple-axis_spectrometry dbr:Institut_Laue–Langevin dbr:Hydrogen dbr:Neutron dbr:Polarization_(waves) dbr:Intermediate_scattering_function
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n15:5Y1Zd wikidata:Q56280284
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dbo:abstract
Neutron resonance spin echo is a quasielastic neutron scattering technique developed by Gähler and Golub. In its classic form it is used analogously to conventional neutron spin echo (NSE) spectrometry for quasielastic scattering where tiny energy changes from the sample to the neutron have to be resolved. In contrast to NSE, the large magnetic solenoids are replaced by two resonant flippers respectively. This allows for variants in combination with triple axes spectrometers to resolve narrow linewidth of excitations or MIEZE (Modulation of IntEnsity with Zero Effort) for depolarizing conditions and incoherent scattering which are not possible with conventional NSE. Neutron spin echo techniques achieve very high energy resolution in combination with very high neutron intensity by means of a decoupling of the energy resolution of the instrument from the wavelength spread of the neutrons. The energy transfer of the neutrons is encoded in their polarization and not in the change of the wavelength of the scattered neutrons. The final neutron polarization provides the (normalized) intermediate scattering function S(Q,τ), providing direct information on relaxation processes, activation energies, and the amplitudes of dynamic processes in the samples under investigation.
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