M. Popovici scite author profile

A four‐circle neutron diffractometer with a new multi‐wafer 331 Si monochromator has been installed and commissioned on a thermal beamline at the High Flux Isotope Reactor at Oak Ridge National Laboratory. The instrument is well suited to studies of nuclear and magnetic structures as a function of composition and temperature, resolving symmetry changes (lattice distortions and local structural changes), mapping the evolution of complex magnetic phases, determining hydrogen bonding, analyzing nuclear and spin densities, mapping diffuse scattering, and exploring fiber diffraction. Three incident wavelengths are available, 1.000, 1.536 and 2.540 Å, with intensities of 2.5 × 106, 2.2 × 107 and 8.0 × 106 neutrons cm−2 s−1, respectively. Either high‐resolution or high‐intensity modes are possible by horizontal bending of the monochromator. With increased bending of the monochromator, the incident flux on the sample passes through a maximum, increasing by ×2.0 for 1.000 Å, by ×3.5 for 1.536 Å and by ×3.5 for 2.540 Å, as compared to the flat condition. The flux increases because the lattice strain in the silicon crystals increases. The ω‐scan peak width increases with monochromator curvature and this width versus scattering angle flattens. Given these effects, the monochromator bending can be adjusted to deliver high intensity primarily for crystal structure refinements or high resolution for resolving symmetry changes. In addition to the traditional step‐scanning mode, a more efficient continuous‐scanning mode was developed, and both these are implemented through a LabView‐based control program, i.e. a modified version of the SPICE software package. A 4 K closed‐cycle helium refrigerator is permanently mounted on the χ‐circle of the goniometer to provide temperature control between 4 and 450 K.

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Quasielastic Neutron Scattering Study of the Effect of Water-to-Cement Ratio on the Hydration Kinetics of Tricalcium Silicate

Berliner

Popovici

Herwig

et al. 1998

Cement and Concrete Research

109

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Optics of curved-crystal neutron spectrometers. I. Three-axis spectrometers

Popovici¹,

Stoica²,

Ioniţă³

1987

J Appl Cryst

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The optics of curved-crystal three-axis neutron spectrometers is investigated analytically. A program for computing resolution and intensity characteristics, which includes finding conditions for intensityresolution optimization, is presented. Ways of improving spectrometer performances are discussed. The program's predictions are supported by experimental results obtained on a spectrometer with pneumatically curved perfect Si crystals.

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On the resolution of slow-neutron spectrometers. IV. The triple-axis spectrometer resolution function, spatial effects included

Popovici¹

1975

Acta Cryst A

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On the neutron reflectivity of bent perfect crystals

Stoica¹,

Popovici²

1989

J Appl Cryst

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M. Popovici

Four-circle single-crystal neutron diffractometer at the High Flux Isotope Reactor

Quasielastic Neutron Scattering Study of the Effect of Water-to-Cement Ratio on the Hydration Kinetics of Tricalcium Silicate

Optics of curved-crystal neutron spectrometers. I. Three-axis spectrometers

On the resolution of slow-neutron spectrometers. IV. The triple-axis spectrometer resolution function, spatial effects included

On the neutron reflectivity of bent perfect crystals

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