Scintillation mechanisms of inorganic materials: From crystal characteristics to scintillation properties

G. Bizarri

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Scintillation mechanisms of inorganic materials: From crystal characteristics to scintillation properties

机译：无机材料的闪烁机理：从晶体特性到闪烁特性

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摘要

Finding new inorganic scintillator crystals with better performance for demanding applications, such as high-energy physics, medical imaging, and radiation detection, has been a long-standing challenge. Thanks to an intensive interdisciplinary effort between theoreticians, experimentalists and crystal growers, current scintillator performances are reaching the intrinsic limits imposed by the crystal. However, demand continues for more efficient scintillators with higher light output, better energy resolution and lower cost of production. This article discusses the basic concepts of scintillation in inorganic materials, focusing on how physics can provide pathways to assist in scintillator discovery.

机译：在高能物理，医学成像和放射线检测等苛刻应用中，寻找性能更好的新型无机闪烁体晶体一直是一项长期的挑战。由于理论家，实验家和晶体种植者之间的跨学科努力，当前的闪烁体性能已达到晶体所固有的极限。然而，对具有更高的光输出，更好的能量分辨率和更低的生产成本的高效闪烁器的需求仍在继续。本文讨论了无机材料中闪烁的基本概念，重点是物理学如何提供途径来协助闪烁体的发现。

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来源
《Journal of Crystal Growth》 |2010年第8期|p.1213-1215|共3页
作者
G. Bizarri;
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作者单位

Department of Radiotracer Development and Medical Imaging, Life Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类
关键词
A1. Characterization; A1. Defects; A1. Computer simulation; B3. Scintillators;

机译：A1。表征;A1。缺陷;A1。计算机仿真;B3。闪烁体;

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1. Exchange of a Tetrapositive Cation into a Zeolite and a New Inorganic Scintillator. I. Crystal Structures and Scintillation Properties of Anhydrous Zr1.7Tl5.4Cl1.7-LTA and Zr2.1Tl1.6Cl3.0-LTA [J] . Kim Joon Young, Park Jeong Min, Kim Hong Joo, The journal of physical chemistry, C. Nanomaterials and interfaces . 2015,第32期

机译：将四正阳离子交换为沸石和新型无机闪烁体。 I.无水Zr1.7Tl5.4Cl1.7-LTA和Zr2.1Tl1.6Cl3.0-LTA的晶体结构和闪烁特性
2. Inorganic scintillating materials and scintillation detectors [J] . Takayuki YANAGIDA Proceedings of the Japan Academy, Series B. Physical and Biological Sciences . 2018,第2期

机译：无机闪烁材料和闪烁探测器
3. International Conference on Inorganic Scintillators and Their Industrial Applications, SCINT 2005: Current Trends in Scintillator Materials Research [J] . S. O. Klimonskii Inorganic materials . 2006,第5期

机译：无机闪烁体及其工业应用国际会议，SCINT 2005：闪烁体材料研究的最新趋势
4. Average energy required per scintillation photon and energy resolution in inorganic, scintillation crystals for gamma-rays [C] . Sasaki, S., Tawara, . 2002

机译：无机闪烁晶体中每个闪烁光子所需的平均能量和能量分辨率，用于伽马射线
5. An Analysis of the Scintillation Properties of Several Materials for Radiation Detection [D] . Laffey, Luke John. 2020

机译：辐射检测几种材料的闪烁性能分析
6. Inorganic scintillating materials and scintillation detectors [O] . Takayuki YANAGIDA 2018

机译：无机闪烁材料和闪烁探测器
7. Optical and Scintillation Properties of Inorganic Scintillators in High Energy Physics [O] . Mao Rihua, Zhang Liyuan, Zhu Ren-Yuan 2008

机译：高能物理中无机闪烁体的光学和闪烁特性

Scintillation mechanisms of inorganic materials: From crystal characteristics to scintillation properties

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