Neutron Interferometry and Optics FacilityThe Neutron Interferometry and Optics Facility (NIOF) located in the NIST Center for Neutron Research Guide Hall is one of the world's premier user facilities for neutron interferometry and related neutron optical measurements. A neutron interferometer (NI) splits, then recombines neutron waves. This gives the NI its unique ability to experimentally access the phase of neutron waves. Phase measurements are used to study the magnetic, nuclear, and structural properties of materials, as well fundamental questions in quantum physics. Related, innovative neutron optical techniques for use in condensed matter and materials science research are being developed.
Neutrons are extracted from a dual-crystal parallel-tracking monochromator system, providing neutron energies in a range of 4 meV to 20 meV. Neutrons are counted with integrating 3He detectors or by high resolution position-sensitive detectors (with a resolution better than 50 µm). The sensitivity of the apparatus is greatly enhanced by state-of-the-art thermal, acoustical and vibration isolation systems. To reduce vibration, the NIOF is built on its own foundation, separate from the rest of the building. The position of the NI is maintained to high precision by a computer-controlled servo system. The result is a NI facility with exceptional phase stability and fringe visibility.
Neutron interferometry is ideal for making accurate measurements of the nuclear scattering properties of elements and isotopes. This is especially useful for the non-destructive determination of the hydrogen content in materials. NI can also directly measure the Fourier Transform of the neutron momentum distribution, which can used for precision studies of the surface properties of materials. Development of neutron imaging techniques with real-world applications is a major emphasis of the facility. In particular, neutron phase contrast imaging, three-dimensional neutron tomography, and single crystal diffractometers are being developed for the study of structural and bulk properties of materials. These instruments and techniques will be valuable for materials science research and industrial applications.
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Online: September 1995 - Last update: January 2002