碱金属和碱土金属三元氯化物中的紫外交叉发光

arXiv - PHYS - Instrumentation and Detectors Pub Date : 2024-09-17 DOI:arxiv-2409.10823

Vojtech Vanecek, Juraj Paterek, Robert Kral, Romana Kucerkova, Vladimir Babin, Jan Rohlicek, Roberto Cala, Nicolaus Kratochwil, Etiennette Auffray, Martin Nikl

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摘要

1982 年在 BaF2 中发现交叉发光（CL）后，人们对大量的 CL 闪烁体进行了研究。然而，目前还没有发现比 BaF2 更好的 CL 闪烁体，CL 闪烁体的研究出现了一边倒的趋势。近年来，医学成像和高能物理技术的发展对超快闪烁体提出了新的需求，而紫外敏感半导体光电探测器的发展又进一步支持了这一需求。因此，CL闪烁体再次受到关注。为了满足超快定时应用的要求，闪烁体和光电探测器之间必须具有较高的光探测效率，即良好的光谱匹配。铯基三元氯化物可以在保持与 BaF2 相当的光输出和计时特性的同时，将 CL 向光电探测器（PMT 或 SiPM）的敏感区域进行红移（约 1.5 eV）。

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Ultraviolet cross-luminescence in ternary chlorides of alkali and alkaline-earth metals

After the discovery of a cross-luminescence (CL) in BaF2 in 1982, a large number of CL scintillators were investigated. However, no CL scintillator superior to BaF2 has been discovered, and the research of CL scintillators has subsided. Recent technological development in medical imaging and high-energy physics created a new demand for ultra-fast scintillators further supported by the development of UV-sensitive semiconductor photodetectors. As a consequence, renewed interest in CL scintillators appeared. To satisfy the requirements of fast timing applications high photo-detection efficiency, e. i. a good spectral match between the scintillator and photodetector must be achieved. Cesium-based ternary chlorides could provide a red-shift (~1.5 eV) of CL towards the sensitive region of the photodetector (PMT or SiPM) while keeping light output and timing characteristics comparable to BaF2.

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