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Issue title: ICANS-XXIII, hosted by the Oak Ridge National Laboratory Neutron Sciences Directorate
Guest editors: Kenneth W. Herwig and Erik B. Iverson
Article type: Research Article
Authors: Lacy, Jeffrey L.; * | Athanasiades, Athanasios | Martin, Christopher S. | Nguyen, Richard | Davenport, Stephen | Lyons, Tom | Liu, Yangwei
Affiliations: Proportional Technologies, Inc., 12233 Robin Blvd, Houston, TX 77045, USA. E-mails: [email protected], [email protected], [email protected]
Correspondence: [*] Corresponding author. Tel.: +1-713-775-3597; E-mail: [email protected].
Abstract: Modified boron-coated straw (BCS) detector configurations are introduced, in order to improve detection efficiency, and reduce the number of layers required to match the response of high-pressure 3He tubes, in large-scale neutron science instruments. A new 7-straw design employing thin-walled aluminum tubes facilitates operation in vacuum, and substantially reduces the scattering material by a factor of 5 compared with the flow-through design of the Multi-Grid detector. Another design introduces 18 radial walls inside each straw, coated on both sides with enriched boron carbide, to increase the coated wall perimeter 4.3 times. The so-called Pie straw offers a significant benefit in detection efficiency compared with round straws used in LoKI. An example of such a straw having 18 septa is explored in modeling and experimental studies, that can potentially reduce the number of layers needed in large-scale instruments like LoKI by a factor of 2.8. In a parallel development, a totally new configuration of boron-coated detectors is introduced, aimed to address the need for high spatial resolution, and high-rate capability in single crystal diffractometers, like MaNDi and TOPAZ at the SNS, and in neutron reflectometers. The proposed structure is a close-packed array of rectangular cells, each fabricated by wrapping copper foil having a coating of 10B4C on one side and electroplated tin on the other side, around precisely machined rectangular bars. The array is pressed together and then vacuum brazed together. The resulting structure is quite strong and precise in geometry. This so-called Microcell Straw Array can be configured with channel dimensions as small as 0.5 mm × 2.5 mm. Due to its ultra thin walls (25 μm) secondary scattering of neutrons is minimized. It is sealed inside a fully welded thin aluminum containment vessel that allows convenient operation in vacuum. A mature low power readout system capable of an estimated count rate of 22 MHz in a 15 × 15 cm2 detector is also proposed. The improvements are the result of recent advances in BCS design, spurred by the development of compact, high-sensitivity monitors for homeland security and military applications.
Keywords: Neutron detectors, boron-coated straws, neutron diffractometers, neutron reflectometers
DOI: 10.3233/JNR-190138
Journal: Journal of Neutron Research, vol. 22, no. 2-3, pp. 353-369, 2020
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