Light Extraction Enhancement Techniques for Inorganic Scintillators

F. Gramuglia, S. Frasca, E. Ripiccini, E. Venialgo, V. Gâté, H. Kadiri, N. Descharmes, D. Turover, E. Charbon, C. Bruschini
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引用次数: 6

Abstract

In several applications which rely on the use of ionizing radiation, scintillators play an important role in the detection chain. An efficient extraction and detection of the generated light is mandatory to provide sufficient information on the high energy particles interacting with the crystal itself. The amount of light extracted, as well as its temporal distribution, have a direct impact on the overall system performance. In positron emission tomography (PET), energy resolution and coincidence resolving time are two of the main parameters, which both depend on the amount of detected light. Furthermore, if pixelated crystals with sub-millimiter pitch are needed, such as in preclinical PET scanners, the use of conventional reflectors on the crystal pixel surface implies a dramatic reduction of the packing fraction, due to their thickness. In this work several light extraction techniques for the most used inorganic scintillators are presented and compared. A novel approach, using a combination of distributed Bragg reflectors, metal coatings, and photonic crystals, is also introduced. A maximum gain of ~40% on light extraction and ~18% on energy resolution was observed.
无机闪烁体的光萃取增强技术
在一些依赖于电离辐射的应用中,闪烁体在探测链中起着重要的作用。为了提供与晶体本身相互作用的高能粒子的充分信息,必须对产生的光进行有效的提取和检测。提取的光量及其时间分布对系统的整体性能有直接影响。在正电子发射层析成像(PET)中,能量分辨率和符合分辨时间是两个主要参数,它们都取决于被探测光的量。此外,如果需要具有亚毫米间距的像素化晶体,例如在临床前PET扫描仪中,在晶体像素表面使用传统反射器意味着由于其厚度而大大减少了填充分数。本文介绍并比较了几种最常用的无机闪烁体的光提取技术。本文还介绍了一种利用分布式布拉格反射器、金属涂层和光子晶体相结合的新方法。光提取的最大增益为~40%,能量分辨的最大增益为~18%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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