UV-ultrashort pulsed laser ablation of fused silica

Journal of Laser Applications Pub Date : 2024-01-09 DOI:10.2351/7.0001197

Yongting Yang, Kay Bischoff, Dominik Mücke, C. Esen, Ralf Hellmann

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Abstract

The authors report on ultraviolet ultrashort pulsed laser ablation of fused silica and compare the achievable micromachining results to those obtained by using the fundamental emission wavelength in infrared. Ablation in ultraviolet reveals a stable efficiency for increasing fluences, whereas using an infrared beam exhibits a decreasing trend of the ablation efficiency at higher and increasing fluences. In addition, a significant improvement in the surface quality is found by using an ultraviolet wavelength in a fluence range up to 20 J/cm2 compared to infrared, e.g., revealing an Ra of down to 0.45 μm on using the ultraviolet wavelength compared to Ra = 0.56 μm on using infrared at fluences up 15 J/cm2. Moreover, taking advantage of the high available pulse energy, the authors compare the achievable ablation efficiency and surface roughness using a conventionally focused ultraviolet beam and a defocused ultraviolet beam, finding that the defocused ultraviolet beam possesses a processing quality comparable to that of the focused beam. Finally, the authors exemplify the potential of ultraviolet ultrashort pulsed laser ablation by using a Tesla mixer for microfluidic integration of fused silica.

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紫外-超短脉冲激光烧蚀熔融石英

作者报告了紫外线超短脉冲激光烧蚀熔融石英的情况，并将可实现的微加工结果与使用红外线基本发射波长获得的结果进行了比较。紫外线烧蚀的效率在流量增加时保持稳定，而使用红外线光束时，烧蚀效率在流量增加时呈下降趋势。此外，与红外线相比，在 20 J/cm2 以下的通量范围内使用紫外线波长可显著改善表面质量，例如，在 15 J/cm2 以下的通量范围内使用红外线波长时，Ra = 0.56 μm，而使用紫外线波长时，Ra 降至 0.45 μm。此外，作者还利用现有的高脉冲能量，比较了使用传统聚焦紫外线光束和散焦紫外线光束可实现的烧蚀效率和表面粗糙度，发现散焦紫外线光束的加工质量可与聚焦光束媲美。最后，作者通过将特斯拉混合器用于熔融石英的微流体集成，举例说明了紫外线超短脉冲激光烧蚀的潜力。

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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Journal of Laser Applications

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