Laser induced breakdown spectroscopy analysis of lunar simulants under high vacuum conditions

TENCON 2010 - 2010 IEEE Region 10 Conference Pub Date : 2010-11-01 DOI:10.1109/TENCON.2010.5686698

Jobin K. Antony, Nilesh J Vasa, V L N Sridhar Raja, A. S. Laxmiprasad

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Abstract

Application of laser induced breakdown spectroscopy (LIBS) is considered for compositional analysis of materials on planetary surfaces. In many such applications, LIBS measurements are conducted in high vacuum and the propagation of the plume produced during laser ablation plays a significant role. Therefore a proper understanding of the plasma parameters under high vacuum is significant for any improvement in the LIBS system. In this study, hydrodynamic equations are used to model plasma dynamics. A model is used to understand laser assisted ablation and plume dynamics under high vacuum condition. Further, experimental studies are performed to analyze the lunar simulant soil. Experimentally observed lunar simulant plasma temperature was comparable with the theoretically estimated Si plasma temperature. This shows that plasma characteristic of lunar soil is mainly influenced by silicon which is the major constituent element present. The emission life time of silicon and lunar simulant are measured under different ambient pressure conditions. The measured life time is very short in vacuum as compared to that of at an atmospheric pressure. This is due to the high velocity and fast expansion of the plume under high vacuum (5×10−9 bar) condition.

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高真空条件下月球模拟物的激光诱导击穿光谱分析

研究了激光诱导击穿光谱(LIBS)在行星表面材料成分分析中的应用。在许多此类应用中，LIBS测量是在高真空中进行的，激光烧蚀过程中产生的羽流传播起着重要作用。因此，正确理解高真空条件下的等离子体参数对LIBS系统的任何改进都具有重要意义。在这项研究中，流体动力学方程被用来模拟等离子体动力学。建立了高真空条件下激光辅助烧蚀和羽流动力学模型。在此基础上，对月球模拟土壤进行了实验分析。实验观测到的月球模拟等离子体温度与理论估计的硅等离子体温度相当。这说明月球土壤的等离子体特性主要受其主要组成元素硅的影响。在不同的环境压力条件下，测量了硅和月球模拟材料的发射寿命。所测得的寿命在真空中比在大气压力下短得多。这是由于在高真空(5×10−9 bar)条件下羽流的高速和快速膨胀。

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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TENCON 2010 - 2010 IEEE Region 10 Conference

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