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First studies of electron transport along small gas gaps of novel foil radiation converters for fast-neutron detectors

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arxiv 1210.7068 v2 pith:PUHB3LRY submitted 2012-10-26 physics.ins-det

First studies of electron transport along small gas gaps of novel foil radiation converters for fast-neutron detectors

classification physics.ins-det
keywords efficiencyconverterselectronfoilsalongconverterelectronsdetection
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Novel high efficiency fast-neutron detectors were suggested for fan-beam tomography applications. They combine multi-layer polymer converters in gas medium, coupled to thick gaseous electron multipliers (THGEM). In this work we discuss the results of a systematic study of the electron transport inside a narrow gap between successive converter foils, which affects the performance of the detector, both in terms of detection efficiency and localization properties. The efficiency of transporting ionization electrons was measured along a 0.6 mm wide gas gap in 6 and 10 mm wide polymer converters Computer simulations provided conceptual understanding of the observations. For a drift lengths of 6 mm electrons were efficiently transported along the narrow gas gap, with minimal diffusion-induced losses; an average collection efficiency of 95% was achieved for the ionization electrons induced by a primary electron of a few keV initial energy. The 10 mm height converter yielded considerably lower efficiency due to electrical and mechanical flaws of the converter foils. The results indicate that detection efficiencies of around 7% can be expected for 2.5 MeV neutrons with 300 foils converters, of 6 mm height, 0.4 mm thick foils and 0.6 mm gas gap.

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