Automatic spark counting of alpha-tracks in plastic foils

Nuclear Track Detection Pub Date : 1977-06-01 DOI:10.1016/0145-224X(77)90007-2

G. Somogyi, L. Medveczky, I. Hunyadi, B. Nyako

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引用次数: 21

Abstract

The possibility of α-track counting by jumping-spark counter in cellulose acetate and polycarbonate nuclear track detectors was studied. A theoretical treatment is presented which predicts the optimum residual thickness of the etched foils in which completely through-etched tracks (i.e., holes) can be obtained for α-particles of various energies and angles of incidence. In agreement with the theoretical prediction, it is shown that a successful spark counting of α-tracks can be performed even in polycarbonate foils. Some counting characteristics, such as counting efficiency vs particle energy at various etched-foil thicknesses, surface spark density produced by electric breakdown in unexposed foils thickness, etc., have been determined. Special attention is given to the spark counting of α-tracks entering thin detectors at right angle. The applicability of the spark-counting technique is demonstrated in angular-distribution measurements of the ²⁷A1 (p,α₀)²⁴Mg nuclear reaction at E_p=1899 keV resonance energy. For this study 15 μm thick Makrofol-G foils and a jumping-spark counter of improved construction have been used.

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自动火花计数阿尔法轨道在塑料箔

研究了在醋酸纤维素和聚碳酸酯核径迹检测器中采用跳火花计数器计数α-径迹的可能性。提出了一种理论处理方法，预测了不同能量和入射角α-粒子的最佳残余厚度，在残余厚度下可以获得完全通过蚀刻的轨迹(即孔洞)。与理论预测一致，表明即使在聚碳酸酯箔中也可以成功地进行α-径迹的火花计数。测定了不同蚀刻箔厚度下的计数效率与粒子能量的关系、未暴露箔厚度下电击穿产生的表面火花密度等计数特性。特别注意了以直角方向进入薄探测器的α-径迹的火花计数。在Ep=1899 keV共振能量下27A1 (p，α0)24Mg核反应的角分布测量中，证明了火花计数技术的适用性。本研究采用了15 μm厚的makrofolo - g箔和改进结构的跳火计数器。

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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Nuclear Track Detection

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