多台阶器件结构深层表面光刻工艺优化

孙丽媛; 高志远; 邹德恕; 张露; 马莉; 田亮; 沈光地

doi:10.7498/aps.61.206801

摘要

针对多台阶器件结构深层表面光刻工艺中存在的问题,对不同台阶高度分别测量了台阶表面及台阶底部沉积的光刻胶厚度,并对台阶高度与光刻胶厚度的关系进行数值描述与分析. 基于Beer定律对薄光刻胶光吸收系数的描述,分析了通过实验得到的不同曝光时间下光刻胶的光强透过率曲线,解释了随着曝光时间的增加光刻胶光强透过率发生变化的原因, 同时认为光刻胶光吸收系数与光刻胶厚度密切相关.在此基础上,确定了台阶底部堆积光刻胶完全曝光所需时间.优化平面光刻工艺,在不同台阶高度的深台阶表面及底部同时制作出窄线条的高质量图形.

关键词:

多台阶 /
光刻工艺

Abstract

In this article, we investigate the problems existing in the lithography on the deep multi-stepped surface. Different photoresist thicknesses above and under the step are measured in experiment. The relationship between step height and photoresist thickness is discussed and numerically described. Based on the description of Beer model about the light absorption coefficient, the curves of different light transmittances at different times are analysed. Reasons why the light transmittance changes with time are explained, and the light absorption coefficient is believed to be related to photoresist thickness. On this basis, the lithography process is optimized. The patterns with narrow line-width under the deep step on the wafer are obtained.

Keywords:

multi-stepped /
lithography processes

作者及机构信息

1.
北京工业大学,光电子技术省部共建教育部重点实验室, 北京 100124

基金项目: 北京工业大学博士科研启动基金(批准号: X0002013201101)和北京工业大学研究生科技基金(批准号: ykj-2011-6208)资助的课题.

Authors and contacts

1.
Key Laboratory of Opto-Electronics Technology, Ministry of Education, Beijing University of Technology, Beijing 100124, China

Funds: Project supported by the Scientific Research Staring Foundation for the Doctors, Beijing University of Technology, China (Grant No. X0002013201101) and the Scientific Research Foundation for the Graduates, Beijing University of Technology, China (Grant No. ykj-2011-6208).

参考文献

[1]	Chen B Q 2011 Micronanoelectronic Technol. 48 1 (in Chinese) [陈宝钦 2011 微纳电子技术 48 1]
[2]	Chen B Q 2011 Micronanoelectronic Technol. 48 69 (in Chinese) [陈宝钦 2011 微纳电子技术 48 69]
[3]	Wen J, Yin H Q, Zhang R J, Cao W B 2007 Chin. J. Semicond. Sin. 28 357 (in Chinese) [文景, 尹海清, 张瑞娟, 曹文斌 2007 半导体学报 28 357]
[4]	Liu S J, Du J L, Duan Q, Luo B L, Tang X G, Guo Y K, Du C L 2005 Chin. J. Semicond. Sin. 26 1065 (in Chinese) [刘世杰, 杜惊雷, 段茜, 罗铂靓, 唐雄贵, 郭永康, 杜春雷 2007 半导体学报 28 357]
[5]	Dill F H 1996 IEEE Trans. Electron Dev. 22 440
[6]	Shao J X 1993 Semicond. Technol. 5 32 (in Chinese) [邵建新 1993 半导体技术 5 32]
[7]	Sun X, You S F, Xiao P, Ding Z J 2006 Acta Phys. Sin. 55 149 (in Chinese) [孙霞, 尤四方, 肖沛, 丁泽军 2006 物理学报 55 149]

施引文献

[1]	Chen B Q 2011 Micronanoelectronic Technol. 48 1 (in Chinese) [陈宝钦 2011 微纳电子技术 48 1]
[2]	Chen B Q 2011 Micronanoelectronic Technol. 48 69 (in Chinese) [陈宝钦 2011 微纳电子技术 48 69]
[3]	Wen J, Yin H Q, Zhang R J, Cao W B 2007 Chin. J. Semicond. Sin. 28 357 (in Chinese) [文景, 尹海清, 张瑞娟, 曹文斌 2007 半导体学报 28 357]
[4]	Liu S J, Du J L, Duan Q, Luo B L, Tang X G, Guo Y K, Du C L 2005 Chin. J. Semicond. Sin. 26 1065 (in Chinese) [刘世杰, 杜惊雷, 段茜, 罗铂靓, 唐雄贵, 郭永康, 杜春雷 2007 半导体学报 28 357]
[5]	Dill F H 1996 IEEE Trans. Electron Dev. 22 440
[6]	Shao J X 1993 Semicond. Technol. 5 32 (in Chinese) [邵建新 1993 半导体技术 5 32]
[7]	Sun X, You S F, Xiao P, Ding Z J 2006 Acta Phys. Sin. 55 149 (in Chinese) [孙霞, 尤四方, 肖沛, 丁泽军 2006 物理学报 55 149]

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