Deep-UV interference lithography combined with masked contact lithography for pixel wiregrid patterns

SPIE Advanced Lithography Pub Date : 2016-04-01 DOI:10.1117/12.2219484
D. Lombardo, P. Shah, Pengfei Guo, A. Sarangan
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引用次数: 7

Abstract

Pixelated wiregrids are of great interest in polarimetric imagers, but there are no straightforward methods available for combining the uniform exposures of laser interference with a masking system to achieve pixels at different rotational angles. In this work we demonstrate a 266nm deep-UV interference lithography combined with a traditional i-line contact lithography to create such pixels. Aluminum wiregrids are first made, following by etching to create the pixels, and then a planarizing molybdenum film is used before patterning subsequent pixel arrays. The etch contrast between the molybdenum and the aluminum enables the release of the planarizing layer.
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深紫外干涉光刻与掩模接触光刻相结合,用于像素线网格图案
像素化线网在偏振成像仪中有很大的兴趣,但是没有直接的方法可以将激光干涉的均匀曝光与掩蔽系统相结合,以实现不同旋转角度的像素。在这项工作中,我们展示了一种266nm深紫外干涉光刻技术,结合传统的i线接触光刻技术来创建这样的像素。首先制作铝线网,然后蚀刻以创建像素,然后在绘制后续像素阵列之前使用平面化钼膜。钼和铝之间的蚀刻对比使平化层得以释放。
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SPIE Advanced Lithography
SPIE Advanced Lithography
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