Maximum Track length Approach for Estimation of Bulk Etch Rate of CR-39 Detector by Means of Track Diameter-Length Correlation

mjl@ jm`@ krkwk ldrst l`lmy@ Pub Date : 2021-09-30 DOI:10.32894/kujss.2021.169997

Shaukat Saeed, Abrar Mustafa

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Abstract

DOI:http://dx.doi. org/10.32894/kujss. 2021.169997 Abstract In this paper, we use maximum track length (Lmax) approach depending on track diameter-length (D-L) correlation as another way to estimate Vb directly from empirical measurements of the track diameters or lengths without resorting to other methods. The lengths of the tracks have been extracted using the (D-L) correlation which relied on the measurement of the openings diameter of the etched tracks, in addition to using the Track-Test program. 241Am(1μCi) source was used to irradiate the plastic detector CR-39 with alpha particles of energies of 3.5-5.3 MeV by means of normal incidence.The irradiated detectors were treated by a chemical etchant for distinct intervals of time using an aqueous NaOH solution of 6 N preserved at temperature (70±)oC. An empirical formula was applied to calculate Vb. The formula relies on two parameters, the maximum length of the track (Lmax) and its saturation time (tsat). We have seen that the magnitude of Vb is equal to 1.407 (μm/h), which can be regarded as compatible with the values indicated by others using different methods. It has been noticed that the maximum length of the etched tracks is directly proportional to alpha energy while exponentially to saturation time of the length.

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利用径长相关性估计CR-39探测器整体刻蚀速率的最大径长法

DOI: http://dx.doi。org/10.32894/kujss。摘要本文采用基于轨道直径-长度(D-L)相关性的最大轨道长度(Lmax)方法，作为直接从轨道直径或长度的经验测量中估计Vb的另一种方法，而无需借助其他方法。除了使用Track-Test程序外，还使用(D-L)相关性提取了轨道的长度，该相关性依赖于蚀刻轨道开口直径的测量。采用241Am(1μCi)源，用能量为3.5 ~ 5.3 MeV的α粒子法向照射塑料探测器CR-39。辐照后的探测器在温度(70±)℃下用6 N的NaOH水溶液进行不同时间间隔的化学蚀刻处理。用经验公式计算Vb。该公式依赖于两个参数，即轨道的最大长度(Lmax)和饱和时间(tsat)。我们看到Vb的量级为1.407 (μm/h)，可以认为这与其他人用不同方法得出的值是一致的。我们注意到，蚀刻轨迹的最大长度与α能量成正比，与长度的饱和时间成指数关系。

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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