Assessment of high-purity quartz glass by laser induced fluorescence technique

SPIE/SIOM Pacific Rim Laser Damage Pub Date : 2019-07-08 DOI:10.1117/12.2539916

Yinchao Zhang, Ting Li, He Chen, Siying Chen, Pan Guo, Xunbao Rui, Baowei Li

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Abstract

In this paper, the laser-induced fluorescence (LIF) technology is utilized for rapid assessment of the purity of quartz glass, especially for the screening of high-purity quartz glass. A 355 nm laser was applied as excitation source to induce the fluorescence signal of the quartz glass samples. The fluorescence signal is then transmitted to the spectrometer through an optical fiber for spectral acquisition. Because only the impurities in quartz glass induce fluorescence, purity quartz glasses does not have a distinct fluorescence signals or fluorescence peaks. The purity evaluation of high-purity quartz glass can be achieved by analyzing the obtained signals. The standard deviation and the ratio of the maximum to minimum values of the signals were calculated to indicate the intensity of the fluorescent peak of the signal. The thresholds were then set to distinguish between high-purity and low-purity quartz glasses. The method has the advantages of high speed, high precision and high reliability, and is of great significance for the rapid screening of quartz glass with high purity requirements.

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激光诱导荧光技术评价高纯度石英玻璃

本文将激光诱导荧光(LIF)技术用于石英玻璃纯度的快速评价，特别是用于高纯度石英玻璃的筛选。采用355nm激光作为激发源，诱导石英玻璃样品的荧光信号。然后将荧光信号通过光纤传输到光谱仪进行光谱采集。因为只有石英玻璃中的杂质才会诱发荧光，所以纯石英玻璃没有明显的荧光信号或荧光峰。通过对采集到的信号进行分析，可以对高纯石英玻璃进行纯度评价。计算信号的标准差和最大值与最小值之比，以表示信号的荧光峰强度。然后设置阈值来区分高纯度和低纯度石英玻璃。该方法具有速度快、精度高、可靠性高等优点，对高纯度要求的石英玻璃的快速筛选具有重要意义。

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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SPIE/SIOM Pacific Rim Laser Damage

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