使用灰度光刻技术设计、模拟和制造三维微系统组件

IF 1.5 2区 物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
Melissa A. Smith, S. Berry, L. Parameswaran, Christopher Holtsberg, N. Siegel, Ronald Lockwood, M. Chrisp, Daniel Freeman, M. Rothschild
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引用次数: 15

摘要

摘要灰度光刻技术是一种广为人知但尚未充分利用的微加工技术,用于在光刻胶中创建三维(3-D)微结构。其广泛使用的障碍之一是开发灰度光刻掩模可能是耗时和昂贵的,因为它通常需要一个迭代的过程,特别是复杂的几何形状。我们讨论了使用PROLITH,一个光刻模拟工具,从灰度掩模设计中预测三维光刻胶轮廓。介绍了几个光学微系统和微机电系统的例子,其中PROLITH用于在微加工过程中实施之前验证掩模设计。在所有示例中,PROLITH能够准确定量地预测抗蚀剂轮廓,从而减少了设计时间和试验光掩膜的数量,有效地降低了组件制造成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design, simulation, and fabrication of three-dimensional microsystem components using grayscale photolithography
Abstract. Grayscale lithography is a widely known but underutilized microfabrication technique for creating three-dimensional (3-D) microstructures in photoresist. One of the hurdles for its widespread use is that developing the grayscale photolithography masks can be time-consuming and costly since it often requires an iterative process, especially for complex geometries. We discuss the use of PROLITH, a lithography simulation tool, to predict 3-D photoresist profiles from grayscale mask designs. Several examples of optical microsystems and microelectromechanical systems where PROLITH was used to validate the mask design prior to implementation in the microfabrication process are presented. In all examples, PROLITH was able to accurately and quantitatively predict resist profiles, which reduced both design time and the number of trial photomasks, effectively reducing the cost of component fabrication.
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来源期刊
CiteScore
3.40
自引率
30.40%
发文量
0
审稿时长
6-12 weeks
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