光诱导衰减对 TL 和 OSL 信号的影响以及在 BeO 辐射计中使用 PTTL 信号进行剂量再评估的可行性

IF 3.1 3区 物理与天体物理 Q2 PHYSICS, APPLIED
Engin Aşlar
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引用次数: 0

摘要

本研究旨在调查三种不同光源(荧光、UV-254 和日光)下光诱导衰减对热释光(TL)和光激发发光(OSL)信号的影响,以及利用氧化铍剂量计中的光转移 TL(PTL)信号进行剂量再评估。对每种光源的 TL 和 OSL 信号都进行了去卷积。相应地,对 TL 信号的最大峰值温度、活化能、峰值面积值以及 OSL 信号的强度和寿命值的变化进行了监测。根据光源的不同,每个峰值、OSL 分量和总面积值都表现出不同的行为。考虑到总面积条件,在 120 分钟结束时,UV-254、日光和荧光灯照射下的 TL 强度分别下降了 ∼90%、∼80% 和 ∼70%。另一方面,在紫外线-254 和日光下,OSL 总面积强度迅速减弱,而在荧光灯下则下降了 45%。根据这些结果,无论 TL 和 OSL 测量结果如何,剂量计在照射后都应主要远离日光和荧光灯,而不是日常生活中很少遇到的 UV-254。在 0.1 至 128 Gy 的宽剂量范围内,研究了在 UV-254 光下使用 PTTL 信号重新评估剂量的可行性。考虑到 PTTL 信号的总面积强度,重新评估 0.5 至 32 Gy 的剂量是可行的。总之,PTL 信号可轻松用于 Gy 量级的领域,如放疗应用中的剂量再评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Light-induced fading effects on TL and OSL signals and feasibility of dose re-assessment with PTTL signals in BeO dosimeters
This study aims to investigate both light-induced fading effects on thermoluminescence (TL) and optically stimulated luminescence (OSL) signals under three different light sources (fluorescent, UV-254 and daylight) and dose reassessment with phototransferred TL (PTTL) signals in Beryllium oxide dosimeters. TL and OSL signals were deconvoluted for each light source. Accordingly, variations in the maximum peak temperature, activation energy, peak area value for the TL signal, and intensity and lifetime values for the OSL signal were monitored. Each peak, OSL component, and total area value exhibited different behaviors depending on the light source. Considering the total area condition, the TL intensity decreased by ∼90%, ∼80%, and ∼70% in UV-254, daylight, and fluorescent light exposure, respectively, at the end of the 120 min. On the other hand, the OSL total area intensity faded quickly for both UV-254 and daylight, while it decreased by ∼45% for fluorescent light. According to these results, regardless of TL and OSL measurements, the dosimeters should be kept primarily away from daylight and fluorescent light after irradiation, instead of UV-254, which is rarely encountered in daily life. The feasibility of dose reassessment using PTTL signals under UV-254 light was investigated within a wide dose range from 0.1 to 128 Gy. It is feasible to reassess doses between 0.5 and 32 Gy considering the total area intensity of PTTL signals. In conclusion, PTTL signals can be easily used in fields of the order of Gy, such as in reevaluating doses in radiotherapy applications.
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来源期刊
Journal of Physics D: Applied Physics
Journal of Physics D: Applied Physics 物理-物理:应用
CiteScore
6.80
自引率
8.80%
发文量
835
审稿时长
2.1 months
期刊介绍: This journal is concerned with all aspects of applied physics research, from biophysics, magnetism, plasmas and semiconductors to the structure and properties of matter.
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