Fabrication of CeCl3/LiCl/CaCl2 Ternary Eutectic Scintillator for Thermal Neutron Detection

Abstract: To date, 3He gas has been commonly used to detect thermal neutrons because of their high chemical stability and low sensitivity to γ-rays, owing to their low density and large neutron capture cross-section. However, the depletion of 3He gas prompts the development of a new solid scintillator for thermal neutron detection to replace 3He gas detectors. Solid scintillators containing 6Li are commonly used to detect thermal neutrons. However, they are currently used in single crystals only, and their 6Li concentra… Show more

“…However, this material is quite hygroscopic and is useless for doping with rare-earth ions. Nevertheless, its attractiveness led to the development of a series of eutectic crystalline combinations, which include lithium chloride and a compound allowing doping with 2+ and 3+ rare-earth ions [28,29]. At the same time, light compounds with a scintillation yield comparable to the relatively heavy LiI(Eu) or elpasolites have not yet been obtained.…”

Light Inorganic Scintillation Materials for Neutron and Charge Particle Detection

“…However, this material is quite hygroscopic and is useless for doping with rare-earth ions. Nevertheless, its attractiveness led to the development of a series of eutectic crystalline combinations, which include lithium chloride and a compound allowing doping with 2+ and 3+ rare-earth ions [28,29]. At the same time, light compounds with a scintillation yield comparable to the relatively heavy LiI(Eu) or elpasolites have not yet been obtained.…”

Light Inorganic Scintillation Materials for Neutron and Charge Particle Detection

Investigation of the phase diagram of the CsI-LiBr system and fabrication of the eutectic scintillator for thermal neutron detection