通过深反应离子刻蚀制备高深宽比硅光栅

Towards the Fabrication of High-Aspect-Ratio Silicon Gratings by Deep Reactive Ion Etching.

作者信息

Shi Zhitian, Jefimovs Konstantins, Romano Lucia, Stampanoni Marco

机构信息

Paul Scherrer Institut, 5232 Villigen PSI, Switzerland.

Department of Information Technology and Electrical Engineering, ETH Zürich, 8092 Zürich, Switzerland.

出版信息

Micromachines (Basel). 2020 Sep 18;11(9):864. doi: 10.3390/mi11090864.

DOI:10.3390/mi11090864

PMID:32961900

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7570153/

Abstract

The key optical components of X-ray grating interferometry are gratings, whose profile requirements play the most critical role in acquiring high quality images. The difficulty of etching grating lines with high aspect ratios when the pitch is in the range of a few micrometers has greatly limited imaging applications based on X-ray grating interferometry. A high etching rate with low aspect ratio dependence is crucial for higher X-ray energy applications and good profile control by deep reactive ion etching of grating patterns. To achieve this goal, a modified Coburn-Winters model was applied in order to study the influence of key etching parameters, such as chamber pressure and etching power. The recipe for deep reactive ion etching was carefully fine-tuned based on the experimental results. Silicon gratings with an area of 70 × 70 mm, pitch size of 1.2 and 2 μm were fabricated using the optimized process with aspect ratio α of ~67 and 77, respectively.

摘要

X射线光栅干涉测量术的关键光学元件是光栅，其轮廓要求对获取高质量图像起着最为关键的作用。当间距处于几微米范围内时，蚀刻具有高纵横比的光栅线的难度极大地限制了基于X射线光栅干涉测量术的成像应用。对于更高能量的X射线应用以及通过光栅图案的深反应离子蚀刻实现良好的轮廓控制而言，具有低纵横比依赖性的高蚀刻速率至关重要。为实现这一目标，应用了改进的科伯恩-温特斯模型来研究关键蚀刻参数（如腔室压力和蚀刻功率）的影响。基于实验结果对深反应离子蚀刻工艺进行了仔细微调。采用优化工艺分别制作了面积为70×70 mm、间距尺寸为1.2和2μm的硅光栅，其纵横比α分别约为67和77。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9702/7570153/9a5c6f6803c3/micromachines-11-00864-g001.jpg

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通过深反应离子刻蚀制备高深宽比硅光栅

Towards the Fabrication of High-Aspect-Ratio Silicon Gratings by Deep Reactive Ion Etching.

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