Pulsed thermal excitation of luminescent microparticles for radiation dosimetry

M. Manfred, N. T. Gabriel, M. Mah, E. Yukihara, J. Talghader
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引用次数: 2

Abstract

A technique using temperature pulses was used to measure thermoluminescence in single aluminum oxide microparticles. This method can excite a large fraction of trapped carriers to luminesce simultaneously, which increases the maximum intensity and makes it ideal for probing the luminescence of micro- and nano-particles. Using 50 ms and 10 ms pulses, the technique resulted in curves similar to standard thermo luminescence curves with peaks near 240degC and 300degC respectfully. Increasing the temperature of a single pulse resulted in an increase in intensity.
用于辐射剂量测定的发光微粒的脉冲热激发
利用温度脉冲技术测量了单个氧化铝微粒的热释光。该方法可以激发大量被困载流子同时发光,提高了最大强度,是探测微纳米粒子发光的理想方法。使用50 ms和10 ms脉冲,该技术得到了与标准热发光曲线相似的曲线,峰值分别在240℃和300℃附近。增加单个脉冲的温度会导致脉冲强度的增加。
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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