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Fast Ce,Ca:LuAG scintillation ceramics for HEP: Fabrication, characterization, and computation

Danyang Zhu, Xiaopu Chen, Jiajia Cai, Alena Beitlerová, Romana Kučerková, Weerapong Chewpraditkul, M. Nikl, Jiang Li

2023Journal of the American Ceramic Society15 citationsDOI

Abstract

Abstract High‐energy physics community is looking for a hard, fast, and low‐cost scintillation material, and Ce:Lu 3 Al 5 O 12 (Ce:LuAG) ceramic is one of the competitive candidates. This work presents Ce,Ca:LuAG scintillation ceramics with good optical quality, and the influence of Ce and Ca concentrations on optical and scintillation properties was fully analyzed. At relatively low level of Ce concentration, the less Ca 2+ content is needed to achieve a significant intensity increase in fast scintillation component while maintaining a relatively high light yield (LY). The introduction of only 0.1 at% Ca 2+ could increase the LY 0.5 μs /LY 3.0 μs from 79.9% to 96.1% in Ce,Ca:LuAG ceramics of 0.1 at% Ce. First‐principles investigations are further performed to reveal the tuning mechanisms of the scintillation properties of LuAG by Ce and Ca codoping. We show that the Fermi level shifts down with Ca codoping, which increases the Ce 4+ content and decreases the depth of the electron traps ( V O ), resulting to a faster decay. Moreover, the formation preference of Ca‐ V O complexes over Ce‐ V O leads to the suppression of the non‐radiative decay of Ce via V O . In summary, our study demonstrates the realization of the performance tuning of LuAG via Ce and Ca codoping.

Topics & Concepts

ScintillationMaterials scienceCeramicFabricationLuminescenceAnalytical Chemistry (journal)MineralogyOpticsOptoelectronicsPhysicsComposite materialChemistryAlternative medicineMedicineDetectorPathologyChromatographyRadiation Detection and Scintillator TechnologiesAtomic and Subatomic Physics ResearchLuminescence Properties of Advanced Materials
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