Boron nitride neutron detector with the ability for detecting both thermal and fast neutrons

Citations Over TimeTop 10% of 2022 papers

Abstract

The detection of fast neutrons is regarded technically challenging because the interaction probability of fast neutron with matter is extremely low. Based on our recent development of hexagonal boron nitride (BN) semiconductor thermal neutron detectors with a record high efficiency of 59%, we report here the feasibility studies of BN detectors for detecting fast neutrons. A BN detector with a detection area of 2.1 cm2 was fabricated from a 90 μm thick BN epilayer. In the presence of a bare Cf-252 source emitting fast neutrons ranging from 1 to 9 MeV, the detection efficiency was estimated to be about 0.1%. The measured mean free path of fast neutron in BN is about 7.6 cm. Together with the capability of BN for thermal neutron detection, the present results indicate that by incorporating BN with a large thickness, BN neutron detectors are expected to possess the unique capability of directly detecting thermal to fast neutrons as well as outstanding features resulting from the ultrawide bandgap of BN. The identification of a single material that is sensitive to both thermal and fast neutrons is valuable for the development of novel neutron detection technologies.

Related Papers

• → Boron nitride neutron detector with the ability for detecting both thermal and fast neutrons(2022)30 cited
• → Simultaneous detection of fast and thermal neutrons with a stilbene-6Li glass composite scintillator(2023)4 cited
• → Recent Developments in Fast Neutron Detection and Multiplicity Counting with Liquid Scintillator(2011)18 cited
• Recent Developments in Neutron Detection and Multiplicity Counting with Liquid Scintillator(2010)
• → Development of thermal neutron flux monitor using small scintillator array coupled with quartz fibers for Boron Neutron Capture Therapy(2011)