In situ metrology of direct-write laser ablation using optical emission spectroscopy

Briana Cuero, Kun-Chieh Chien, Chih-Hao Chang
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Abstract

Direct-write laser ablation is an effective manufacturing method for etching complex microscale patterns, especially on hard ceramics such as sapphire that are difficult to machine using traditional mechanical or micromachining methods. However, the variability of the laser–matter interaction causes inconsistencies that prevent this process from moving beyond the research realm. This work presents the real-time monitoring of the ablation process in sapphire using optical emission spectroscopy to assess the key wavelengths that exhibit strong correlations to the fabricated features. In this process, a focused ultrafast laser is used to create microscale features and morphological changes in sapphire substrates, which are studied by a subsequent wet etching in a hydrogen fluoride solution. The etched sapphire samples are observed to have amorphous sapphire removed, resulting in microstructures with higher profile fidelity. Furthermore, principal component analysis of the measured spectral obtained during the etch process indicates that the emission from a few key wavelengths exhibits strong correlations to the etched sapphire patterns. This result indicates that the use of data-driven techniques to assess the spectral emissions of direct-write laser ablation can be a useful tool in developing in situ metrology methods for laser-matter interactions.
直接写入激光烧蚀的发射光谱原位测量
直写激光烧蚀是一种有效的蚀刻复杂微尺度图案的制造方法,特别是在蓝宝石等硬陶瓷上,用传统的机械或微加工方法难以加工。然而,激光与物质相互作用的可变性导致了不一致性,这阻碍了这一过程超越研究领域。这项工作提出了使用光学发射光谱对蓝宝石烧蚀过程进行实时监测,以评估与制造特征具有强相关性的关键波长。在该工艺中,使用聚焦超快激光在蓝宝石衬底上产生微尺度特征和形态变化,并通过随后在氟化氢溶液中进行湿蚀刻研究。观察到蚀刻的蓝宝石样品去除了无定形蓝宝石,从而产生具有更高轮廓保真度的微观结构。此外,在蚀刻过程中获得的测量光谱的主成分分析表明,几个关键波长的发射与蚀刻的蓝宝石图案具有很强的相关性。这一结果表明,使用数据驱动技术来评估直写激光烧蚀的光谱发射可以成为开发激光-物质相互作用的原位测量方法的有用工具。
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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