Measurement of Plasma Parameters in Laser-Induced Breakdown Spectroscopy Using Si-Lines

纳米科学与工程(英文) Pub Date : 2012-12-11 DOI:10.4236/WJNSE.2012.24028

A. M. E. Sherbini, A. Aamer

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引用次数: 53

Abstract

The electron density and temperature of the laser induced silicon plasma were measured using two different methods. The plasma was produced via the interaction of high peak power Nd-YAG laser at the fundamental wavelength of 1064 nm with a plane solid iron target contain small traces of silicon as an element of minor concentration. The lines from the Si I at 288.15 nm and Si II-ionic lines at 413.08 and 634.71 nm were utilized to evaluate the plasma parameters. The reference plasma parameters were measured utilizing the Hα-line at 656.27 nm appeared in the spectra under the same condition. The electron density was measured utilizing the Stark broadening of the silicon lines and the temperature from the standard Saha-Boltzmann plot method. The comparison between electron densities from different silicon lines to that from the Hα-line reveals that the Si I-line at 288.15 nm contain some optical thickness while the Si II-ionic lines were found to be free from this effect. The measurements were repeated at different delay times between the laser and the camera in the range from 1 - 5 μsec. The electron density was found decreases from 2 × 1018 down to 4 × 1017 cm–3. After correcting the spectral intensity at the Si I-line at 288.15 nm, the temperatures evaluated from the different methods were found in an excellent agreement and decreases from 1.25 down to 0.95 eV with delay time.

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用硅线测量激光诱导击穿光谱中的等离子体参数

用两种不同的方法测量了激光诱导硅等离子体的电子密度和温度。等离子体是用基波长1064 nm的峰值功率Nd-YAG激光与含有微量硅元素的平面固体铁靶相互作用产生的。利用288.15 nm的Si - I离子谱线和413.08和634.71 nm的Si - ii离子谱线对等离子体参数进行了评价。在相同条件下，利用光谱中656.27 nm处的h α线测量了参考等离子体参数。电子密度测量利用斯塔克拓宽硅线和温度从标准的萨哈-玻尔兹曼图方法。对比不同硅谱线与h α谱线的电子密度，发现288.15 nm处的Si -i谱线存在一定的光学厚度，而Si - ii离子谱线则不存在这种效应。在1 ~ 5 μsec范围内，以不同的延迟时间重复测量。电子密度从2 × 1018 cm-3下降到4 × 1017 cm-3。在对288.15 nm处Si -线的光谱强度进行校正后，不同方法测得的温度具有很好的一致性，随着延迟时间的增加，温度从1.25 eV下降到0.95 eV。

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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纳米科学与工程(英文)

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103