由二氧化碳激光辐射制成的微透镜阵列

Precision Optics Manufacturing Pub Date : 2020-07-08 DOI:10.1117/12.2566485

T. Schmidt, D. Conrad

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引用次数: 2

摘要

本文介绍了一种制造微光学器件的新方法，特别是透镜高度可达几百微米的微透镜阵列。将现有的MLA制造方法与新方法进行了比较。并给出了应用。一种新型的短脉冲co2激光系统用于生产，其脉冲长度可低至200ns。与普通的电激扫描系统相结合，微透镜通过烧蚀过程在几十秒内完成。在这里，可以生产不同的透镜直径，透镜半径和阵列尺寸。在第二步中，用相同的激光源对MLA进行火焰抛光。在这个过程中，激光被切换到cw模式。由于熔融玻璃的表面张力，预制透镜熔化并获得确定的半径。给出了测量结果的几何形状。结果表明，基于激光的微透镜阵列制造工艺具有高再现性、高柔韧性、加工时间短，可加工硼硅酸盐、钠石灰或熔融二氧化硅等不同玻璃。

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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Micro lens arrays made by CO2-laser radiation

In this article a new way of fabricating micro-optics, especially micro lens arrays (MLA’s) with lens heights up to several hundreds of micrometers is shown. Existing methods of MLA fabrication are compared to the new approach. Also applications are presented. A novel short pulse CO2-laser system is used for the production, which allows pulse lengths down to 200 ns. In combination with a common galvo-scanner system, the micro lenses are preformed by an ablation process in tens of seconds. Here, different lens diameters, lens radii and array sizes can be produced. In a second step, the MLA is fire-polished with the same laser source. For this process step the laser is switched to cw-mode. The preformed lenses melt and get a defined radius as a result of the surface tension of the molten glass. Measurements of the resulting geometry are be presented. As the results show, the laser based micro lens array fabrication process has a high reproducibility, very high flexibility, short process times and can process different glasses like borosilicate, soda lime or fused silica.

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Precision Optics Manufacturing

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