Optimize of LIBS Setup to the Determination of Laser Breakdown Power of Writing Inks

Chemical and Process Engineering Research Pub Date : 2019-07-01 DOI:10.7176/cper/61-05

Hussam S. Sadam, Sami A. Habana, A. Ali

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Abstract

Laser-induced breakdown spectroscopy system (LIBS) had been designed to the determinate of the best ionization laser power for analysis of the writing inks via analysis induced plasma emission. Passively Q-Switched Nd:YAG laser at the fundamental wavelength 1064 nm with different energies (60 mJ,80mJ, 100 mJ, 200 mJ, 300mJ, 400mJ and 500 mJ) with (10 ns) pulse duration, the laser beam was focused via converging lens with focal length (100 mm) that generates different power intensity, optical spectrum analysis system used was within (Si-CCD) array detector, within spectrum range of (200 - 900 nm) with (0.8 nm) optical resolution. Use A4 sheets of commercially available standard white office paper with 2 Ballpoint pens and 1 Gel pen as samples. Show the results that the laser energy (80 mJ) with ( power density, was the best power to generate plasma homogeneous for all component writing inks and ionize it without effect on the paper material. Keywords: LIBS, Laser intensity, Writing inks, White paper, plasma emissions lines, emission line analyses DOI : 10.7176/CPER/61-05 Publication date : July 31 st 2019

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LIBS装置对书写油墨激光击穿功率测定的优化

设计了激光诱导击穿光谱系统(LIBS)，通过分析诱导等离子体发射来确定用于分析书写油墨的最佳电离激光功率。被动调q Nd:YAG激光，基波长1064 nm，不同能量(60 mJ、80mJ、100 mJ、200 mJ、300mJ、400mJ和500 mJ)，脉冲持续时间为(10 ns)，激光束通过焦距(100 mm)的会聚透镜聚焦，产生不同的功率强度，光谱分析系统采用(Si-CCD)阵列探测器，光谱范围为(200 - 900 nm)，光学分辨率为(0.8 nm)。用市面上可买到的A4标准白色办公用纸，配上2支圆珠笔和1支凝胶笔作为样本。结果表明，激光能量(80 mJ)和功率密度(1)是产生等离子体均匀的最佳功率，对所有组分书写油墨都没有影响。关键词:LIBS，激光强度，书写墨水，白皮书，等离子发射线，发射线分析DOI: 10.7176/CPER/61-05出版日期:2019年7月31日

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Chemical and Process Engineering Research

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