Double-GEM based thermal neutron detector prototype

L.A. Serra Filho; R. Felix dos Santos; G.G.A. de Souza; M.M.M. Paulino; F.A. Souza; M. Moralles; H.N. da Luz; M. Bregant; M.G. Munhoz; C.-C. Lai; C. Höglund; P.-O. Svensson; L. Robinson; R. Hall-Wilton

doi:10.1088/1748-0221/17/09/P09018

Journal of Instrumentation

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Double-GEM based thermal neutron detector prototype

L.A. Serra Filho¹, R. Felix dos Santos¹, G.G.A. de Souza¹, M.M.M. Paulino¹, F.A. Souza², M. Moralles², H.N. da Luz³, M. Bregant¹, M.G. Munhoz¹, C.-C. Lai^4,5, C. Höglund^4,6, P.-O. Svensson⁴, L. Robinson⁴ and R. Hall-Wilton^4,7

Published 13 September 2022 • © 2022 IOP Publishing Ltd and Sissa Medialab
Journal of Instrumentation, Volume 17, September 2022 Citation L.A. Serra Filho et al 2022 JINST 17 P09018 DOI 10.1088/1748-0221/17/09/P09018

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lserra@if.usp.br

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¹ Instituto de Física da Universidade de São Paulo, Rua do Matão 1371, Cidade Universitária 05508-090, São Paulo, Brasil

² Instituto de Pesquisas Energéticas e Nucleares, Avenida Lineu Prestes 2242, Cidade Universitária 05508-000, São Paulo, Brasil

³ Institute of Experimental and Applied Physics, Czech Technical University in Prague, Husova 5, Prague 1 110 00, Czech Republic

⁴ Detector Group, European Spallation Source ERIC (ESS), European Spallation Source ERIC (ESS), P.O. Box 176, Lund 221 00, Sweden

⁵ Linköping University, Linköping University, Linköping 581 83, Sweden

⁶ Impact Coatings AB, Westmansgatan 29G, Linköping 582 16, Sweden

⁷ Università degli Studi di Milano-Bicocca, Piazza della Scienza 3, Milano 20126, Italy

Dates

Received 17 May 2022
Accepted 20 July 2022
Published 13 September 2022

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Abstract

The Helium-3 shortage and the growing interest in neutron science constitute a driving factor in developing new neutron detection technologies. In this work, we report the development of a double-GEM detector prototype that uses a ¹⁰B₄C layer as a neutron converter material. GEANT4 simulations were performed predicting an efficiency of (3.14 ± 0.10)%, agreeing within 2.7σ with the experimental and analytic detection efficiencies obtained by the detector when tested in a 41.8 meV thermal neutron beam. The detector is position sensitive, equipped with a 256+256 strip readout connected to resistive chains, and achieves a spatial resolution better than 3 mm. The gain stability over time was also measured with a fluctuation of about 0.2% h^-1 of the signal amplitude. A simple data acquisition with only 5 electronic channels is sufficient to operate this detector.

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