2020
DOI: 10.1107/s1600576720004367
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Sub-millisecond time-resolved small-angle neutron scattering measurements at NIST

Abstract: Instrumentation for time-resolved small-angle neutron scattering measurements with sub-millisecond time resolution, based on Gä hler's TISANE (timeinvolved small-angle neutron experiments) concept, is in operation at NIST's Center for Neutron Research. This implementation of the technique includes novel electronics for synchronizing the neutron pulses from high-speed counterrotating choppers with a periodic stimulus applied to a sample. Instrumentation details are described along with measurements demonstratin… Show more

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Cited by 17 publications
(14 citation statements)
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“…31 Small-angle scattering probes nanoscale inhomogeneities with suitable spatial resolution to address the orientation distribution of a nanoparticle ensemble, 25,32,33 whereas timeresolved approaches give versatile opportunities to study in-situ nanoparticle ensemble dynamics. [34][35][36] Stroboscopic SAXS provides the necessary time resolution to monitor changes in the orientation distribution near the characteristic frequencies. We therefore performed time-resolved SAXS at the microfocus beamline ID13 (ESRF) to monitor the dynamic fielddependent orientation of hematite spindles driven by a custom-made set of Helmholtz coils.…”
Section: Resultsmentioning
confidence: 99%
“…31 Small-angle scattering probes nanoscale inhomogeneities with suitable spatial resolution to address the orientation distribution of a nanoparticle ensemble, 25,32,33 whereas timeresolved approaches give versatile opportunities to study in-situ nanoparticle ensemble dynamics. [34][35][36] Stroboscopic SAXS provides the necessary time resolution to monitor changes in the orientation distribution near the characteristic frequencies. We therefore performed time-resolved SAXS at the microfocus beamline ID13 (ESRF) to monitor the dynamic fielddependent orientation of hematite spindles driven by a custom-made set of Helmholtz coils.…”
Section: Resultsmentioning
confidence: 99%
“…228 From an analysis of the frequency-dependent phase delay of the scattering amplitude to the oscillating magnetic eld, one can extract the rotational diffusion coefficient of opaque, dense magnetic particle dispersions. 229 The structure-directing inuence of static and dynamic magnetic elds 179,230,231 can induce self-assembly of nanocrystals with translational and orientation order that exhibit strongly anisotropic properties that can be used for optical lters, and nanometer-scale viscoelasticity sensors. 232 Furthermore, doping ferronematic liquid crystals with elongated MNPs such as the hematite spindles is a promising approach to improve their performance, and thus understanding the relaxation dynamics of these composites is crucial for potential applications, e.g., in at panel displays.…”
Section: Magnetic Interparticle Correlationsmentioning
confidence: 99%
“…228 From an analysis of the frequency-dependent phase delay of the scattering amplitude to the oscillating magnetic field, one can obtain information on the rotational diffusion coefficient of opaque, dense magnetic particle dispersions. 229 The structure-directing influence of static and dynamic magnetic fields 179,230,231 can induce self-assembly of nanocrystals with translational and orientation order that exhibit strongly anisotropic properties that can be used for optical filters, and nanometer-scale viscoelasticity sensors 232 . Furthermore, doping ferronematic liquid crystals with elongated MNPs such as the hematite spindles is a promising approach to improve their performance, and thus understanding the relaxation dynamics of these composites is crucial for potential applications, e.g., in flat panel displays.…”
Section: Magnetic Interparticle Correlationsmentioning
confidence: 99%