Thermal neutron detection technologies alternative to He-3, featuring a rate capability matching the high flux expected at the European Spallation Source (ESS), are one of the main present challenges of neutron science. A new thermal neutron detection technology was recently developed named the BAND-GEM, a Gas Electron Multiplier (GEM)-based detector provided with a borated 3D converter to reach high efficiency. In this paper the results of a count rate test performed on the BAND-GEM at the ORPHEE reactor are presented. The results show that the detector can easily reach a neutron count rate of 2 MHz/cm(2) while maintaining a good linearity and it is able to reach 8 MHz/cm(2) with a measurable loss of linearity eta and with no sign of instability.
High-rate measurements of the novel BAND-GEM technology for thermal neutron detection at spallation sources
Croci Gabriele;Muraro Andrea;Grosso Giovanni;Rebai Marica;Tardocchi Marco;Gorini Giuseppe
2020
Abstract
Thermal neutron detection technologies alternative to He-3, featuring a rate capability matching the high flux expected at the European Spallation Source (ESS), are one of the main present challenges of neutron science. A new thermal neutron detection technology was recently developed named the BAND-GEM, a Gas Electron Multiplier (GEM)-based detector provided with a borated 3D converter to reach high efficiency. In this paper the results of a count rate test performed on the BAND-GEM at the ORPHEE reactor are presented. The results show that the detector can easily reach a neutron count rate of 2 MHz/cm(2) while maintaining a good linearity and it is able to reach 8 MHz/cm(2) with a measurable loss of linearity eta and with no sign of instability.| File | Dimensione | Formato | |
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Descrizione: High-rate measurements of the novel BAND-GEM technology for thermal neutron detection at spallation sources
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