First measurements with new high-resolution gadolinium-GEM neutron detectors

First measurements with new high-resolution gadolinium-GEM neutron detectors

European Spallation Source instruments like the macromolecular diffractometer (NMX) require an excellent neutron detection efficiency, high-rate capabilities, time resolution, and an unprecedented spatial resolution in the order of a few hundred micrometers over a wide angular range of the incoming...

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Veröffentlicht in:Journal of instrumentation 2016-05, Vol.11 (5), p.P05011-P05011
Hauptverfasser: Pfeiffer, D., Resnati, F., Birch, J., Etxegarai, M., Hall-Wilton, R., Höglund, C., Hultman, L., Llamas-Jansa, I., Oliveri, E., Oksanen, E., Robinson, L., Ropelewski, L., Schmidt, S., Streli, C., Thuiner, P.
Format: Artikel
Sprache:eng
Schlagworte:
Converters
Detectors
Efficiency
fast neutrons
Gadolinium
Gas detectors
Neutron detectors (cold
Neutron diffraction detectors
Particle tracking detectors
Position measurement
Spatial resolution
thermal
Time measurement
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Zusammenfassung:European Spallation Source instruments like the macromolecular diffractometer (NMX) require an excellent neutron detection efficiency, high-rate capabilities, time resolution, and an unprecedented spatial resolution in the order of a few hundred micrometers over a wide angular range of the incoming neutrons. For these instruments solid converters in combination with Micro Pattern Gaseous Detectors (MPGDs) are a promising option. A GEM detector with gadolinium converter was tested on a cold neutron beam at the IFE research reactor in Norway. The [mu]TPC analysis, proven to improve the spatial resolution in the case of super(10) B converters, is extended to gadolinium based detectors. For the first time, a Gd-GEM was successfully operated to detect neutrons with a measured efficiency of 11.8% at a wavelength of 2 Aand a position resolution better than 250 [mu]m.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/11/05/P05011