Thermal neutron detectors with discrete anode pad readout

A new two-dimensional thermal neutron detector concept that is capable of very high rates is being developed. It is based on neutron conversion in 3 He in an ionization chamber (unity gas gain) that uses only a cathode and anode plane; there is no additional electrode such as a Frisch grid. The cath...

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Bibliographic Details
Main Authors: Yu, B., Schaknowski, N. A., Smith, 1G.C., De Geronimo, G., Vernon, E.O., Clonts, L.G., Britton, C L., Frank, S.S.
Format: Conference Proceeding
Language:English
Subjects:
Anodes
Application specific integrated circuits
Cathodes
Character generation
Detectors
Electrodes
Helium
Ionization chambers
Neutrons
Readout electronics
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Summary:A new two-dimensional thermal neutron detector concept that is capable of very high rates is being developed. It is based on neutron conversion in 3 He in an ionization chamber (unity gas gain) that uses only a cathode and anode plane; there is no additional electrode such as a Frisch grid. The cathode is simply the entrance window, and the anode plane is composed of discrete pads, each with their own readout electronics implemented via application specific integrated circuits. The aim is to provide a new generation of detectors with key characteristics that are superior to existing techniques, such as higher count rate capability, better stability, lower sensitivity to background radiation, and more flexible geometries. Such capabilities will improve the performance of neutron scattering instruments at major neutron user facilities. In this paper, we report on progress with the development of a prototype device that has 48 × 48 anode pads and a sensitive area of 24cm × 24cm.
ISSN:1082-3654
2577-0829
DOI:10.1109/NSSMIC.2008.4774757