Abstract The use of ionizing radiation in industrial radiation-processing applications is well-known and low-energy electron beam accelerators are gaining in importance, as they offer several advantages over isotope radiation sources. In this study, a solid-state, polymer material, which responds to high radiation doses by the change in fluorescence intensity, is presented. The ease of photopolymerization process allows curing of the dosimeter in any shape. The signal is measured with an epi-fluorescence microscope and the image processing of the obtained scans can be used to record relative dose-depth distributions of low-energy electron radiations.

中文翻译：

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用于记录与表面辐射处理相关的深度剂量分布的放射性荧光固态聚合物剂量计

摘要 在工业辐射处理应用中使用电离辐射是众所周知的，并且低能电子束加速器的重要性日益增加，因为它们提供了优于同位素辐射源的几个优点。在这项研究中，提出了一种固态聚合物材料，它通过荧光强度的变化来响应高辐射剂量。光聚合过程的简便性允许以任何形状固化剂量计。该信号是用落射荧光显微镜测量的，所获得扫描的图像处理可用于记录低能电子辐射的相对剂量深度分布。