EPJ Web of Conferences (Jan 2018)

Characterization of multilayer Thick-GEM geometries as 10B converters aiming thermal neutron detection

  • Natal da Luz H.,
  • Souza F. A.,
  • Moralles M.,
  • Carlin N.,
  • Oliveira R. A. N.,
  • Bregant M.,
  • Suaide A. A. P.,
  • Chubaci J. F. D.,
  • Matsuoka M.,
  • Silva T. F.,
  • Moro M. V.,
  • Rodrigues C. L.,
  • Munhoz M. G.

DOI
https://doi.org/10.1051/epjconf/201817401012
Journal volume & issue
Vol. 174
p. 01012

Abstract

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Boron-based thermal neutron detectors have recently regained some attention from the instrumentation community as a strong alternative to helium-3 detectors. From the existing concepts exploiting boron layers in position sensitive detectors, the Cascade [1] is the one that takes full advantage of the 2D capabilities of gaseous detectors, with the position resolution not limited by the architecture of the detector. In this work, a proposal for the Cascade detector, based on Thick-GEMs is presented, together with some preliminary studies of the suitable pitch that optimizes the neutron conversion efficiency, while keeping the collection efficiency intact. The characterization of Thick-GEM prototypes produced in Brazil with hole pitch from 0.75 to 3 mm shows that these devices already present a stable performance at low gains, also resulting in fair energy resolution, when cascaded with a standard KaptonTM 50 µm GEM. Results of the first attempts of boron film depositions with Ion Beam Assisted Deposition and characterization by Ion Beam Analysis are also presented.