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PUBLICATIONS

Precision determination of absolute neutron flux

Published

Author(s)

Jeffrey S. Nico, Maynard S. Dewey, David M. Gilliam, Andrew T. Yue, Eamon Anderson, Geoff Greene, Alexander Laptev, William M. Snow

Abstract

A technique for establishing the total neutron rate of a highly-collimated monochromatic cold neutron beam was demonstrated using the method of an alpha- gamma counter. The method requires only the counting of measured rates and is independent of neutron cross sections, decay chain branching ratios, and neutron beam energy. For the measurement, a target of 10B-enriched boron carbide totally absorbed the neutrons in a monochromatic beam, and the rate of absorbed neutrons was determined by counting 478 keV gamma rays from neutron capture on 10B with calibrated high- purity germanium detectors. A second measurement based on Bragg scattering from a perfect silicon crystal was performed to determine the mean de Broglie wavelength of the beam to a precision of 0.024%. With these measurements, the detection efficiency of a neutron monitor based on neutron absorption on 6Li was determined to an overall uncertainty of 0.058%. We discuss the principle of the alpha- gamma method and present details of how the measurement was performed including the systematic effects. We also describe how this method may be used for applications in neutron dosimetry and metrology, fundamental neutron physics, and neutron cross section measurements.
Citation
Metrologia
Volume
55
Pub Type
Journals

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Keywords

Alpha counting, Absolute neutron counting, Cold neutron, Neutron beam, Neutron wavelength
Neutron research, Physics, Nuclear physics and Radiation

Citation

Nico, J. , Dewey, M. , Gilliam, D. , Yue, A. , Anderson, E. , Greene, G. , Laptev, A. and Snow, W. (2018), Precision determination of absolute neutron flux, Metrologia, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=923138 (Accessed April 29, 2024)

Created June 8, 2018, Updated September 6, 2018