光学
点扩散函数
相位调制
计算机科学
光路
准确度和精密度
调制(音乐)
平版印刷术
空间频率
相(物质)
观测误差
干涉测量
计量系统
纳米计量学
计量学
物理
声学
相位噪声
量子力学
统计
数学
天文
作者
Ke Lan,Xiao Liu,Tingyuan Jia,Long Pan,Jinluo Cheng,Yunfeng Li,Xiangzhao Wang,Cailian Chen
出处
期刊:Applied Optics
[Optica Publishing Group]
日期:2024-12-10
卷期号:64 (2): 392-392
摘要
The focusing and leveling sensor (FLS) is crucial for achieving high-accuracy vertical measurements in lithography systems. To improve the vertical measurement accuracy of FLS in multilayer processes, this study explores the feasibility of reducing vertical measurement errors through pupil phase modulation, leveraging the Abbe imaging model and point spread function (PSF) engineering. Two approaches are proposed: installing phase-complementary optical path modulators (OPMs) or spiral phase plates (SPPs) into the optical path. A simulation model is built and experimentally validated, showing consistency in vertical measurement errors between simulations and experiments. The results indicate that when the spatial frequency of wafer surface reflectance due to process variation is 2.5 cycles/mm, introducing complementary OPMs or SSPs can reduce vertical measurement errors by approximately 92.3% and 81.2%, respectively. This demonstrates that both modulation methods effectively reduce vertical measurement errors, thereby improving the measurement accuracy of FLS. These methods offer significant insights for increasing process tolerance and improving the measurement accuracy of FLS in lithographic processes.
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