Evaluation and optimization of measurement conditions for heavy ions with fluorescent nuclear track detectors.

IF 0.8 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Radiation protection dosimetry Pub Date : 2024-11-13 DOI:10.1093/rpd/ncae071
Jun Hu, Tamon Kusumoto, Satoshi Kodaira
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Abstract

In applying fluorescent nuclear track detectors for heavy ion measurement, the fluorescence intensity directly influences linear energy transfer (LET) estimation. However, the conventional analysis highly depends on the analyzed depth and the reference frames from the optical readout. To improve the accuracy of measurements of heavy ions, the gradient of intensity and moving average fluorescence intensity were acquired and calculated to optimize the measurement conditions. The results indicate that the intensity gradient is an alternative quantity to discriminate ions with different LET, and the moving average fluorescence intensity is readily differentiated among individual ions without overlapping values in fluorescence intensity. The scanned range of 25-45 μm is suggested to be the most suitable depth for measurement. To exclude the impact of the variation in fluorescence intensity on evaluation, it is recommended to use the quantities calculated in moving averages with depth in the future.

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利用荧光核轨道探测器评估和优化重离子测量条件。
在应用荧光核轨道探测器进行重离子测量时,荧光强度直接影响线性能量转移(LET)的估算。然而,传统分析高度依赖于分析深度和光学读出的参考帧。为了提高重离子测量的准确性,我们采集并计算了强度梯度和移动平均荧光强度,以优化测量条件。结果表明,强度梯度是区分不同 LET 离子的一个替代量,而移动平均荧光强度则很容易区分单个离子,且不会出现荧光强度值重叠的情况。25-45 μm 的扫描范围被认为是最适合测量的深度。为排除荧光强度变化对评估的影响,建议今后使用移动平均值计算的深度量。
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来源期刊
Radiation protection dosimetry
Radiation protection dosimetry 环境科学-公共卫生、环境卫生与职业卫生
CiteScore
1.40
自引率
10.00%
发文量
223
审稿时长
6-12 weeks
期刊介绍: Radiation Protection Dosimetry covers all aspects of personal and environmental dosimetry and monitoring, for both ionising and non-ionising radiations. This includes biological aspects, physical concepts, biophysical dosimetry, external and internal personal dosimetry and monitoring, environmental and workplace monitoring, accident dosimetry, and dosimetry related to the protection of patients. Particular emphasis is placed on papers covering the fundamentals of dosimetry; units, radiation quantities and conversion factors. Papers covering archaeological dating are included only if the fundamental measurement method or technique, such as thermoluminescence, has direct application to personal dosimetry measurements. Papers covering the dosimetric aspects of radon or other naturally occurring radioactive materials and low level radiation are included. Animal experiments and ecological sample measurements are not included unless there is a significant relevant content reason.
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