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Next-generation neutron detection using a 6Li glass scintillator composite

Andrea Favalli, Brenden Wiggins, Metodi Iliev, Cameron G. Richards, K. Ogren, T. D. McLean, K. D. Ianakiev, Markus P. Hehlen

2025Communications Physics11 citationsDOIOpen Access PDF

Abstract

Neutron detectors are crucial in fundamental science, nuclear security, safeguards, and civil applications. 3He-filled gas proportional counters are the gold standard for thermal neutron detection, prized for their efficiency, neutron/gamma discrimination, and stability; however, the scarcity of 3He has prompted the search for alternatives. Here, we introduce a neutron detector design based on a scintillating composite consisting of 6Li glass scintillator particles dispersed in an organic matrix. A detector consisting of this scintillating composite, photomultiplier tubes (PMTs) for optical detection, and electronics for reading out the PMT signal in both pulse and current modes was prototyped and characterized using various neutron and gamma sources. The prototype achieves a measured intrinsic detection efficiency of 6.70 ± 0.01%, a die-away time of 10.3 ± 0.1 μs, a negligible gamma misidentification probability, and response linearity up to at least 3.7 × 106 incident neutrons/s established via a cross-calibration technique. This detector holds the potential to outperform traditional 3He-gas-based neutron detection systems, offering a viable alternative amidst the ongoing 3He shortage and promising advancements in neutron detection technology. Helium-3 gas proportional counters are the most used detector type for thermal neutron detection in a wide range of applications, but the scarcity of Helium-3 calls for alternatives. The authors presented a detector based on a scintillating composite consisting of Lithium-6 enriched glass scintillator particles dispersed in an organic matrix as a viable alternative to Helium-3 detectors

Topics & Concepts

ScintillatorComposite numberNeutron detectionNeutronMaterials scienceNuclear physicsNuclear engineeringOpticsPhysicsComposite materialDetectorEngineeringRadiation Detection and Scintillator TechnologiesNuclear Physics and ApplicationsAtomic and Subatomic Physics Research