极紫外光刻
光学
航空影像
扫描仪
光圈(计算机存储器)
平版印刷术
抵抗
堆栈(抽象数据类型)
薄脆饼
材料科学
光学(聚焦)
极端紫外线
光刻
数值孔径
还原(数学)
控制逻辑
光电子学
下一代光刻
计量学
平面的
特征(语言学)
进程窗口
计算机科学
图像质量
物理
作者
Guillaume Libeert,Joern-Holger Franke,Sofia Leitao,Natalia Davydova,P. Ramachandran,Susan Sherin Kadeparambil Varghese,Vicky Philipsen
出处
期刊:Journal of micro/nanopatterning, materials, and metrology
[SPIE - International Society for Optical Engineering]
日期:2025-11-06
卷期号:25 (02): 37-37
标识
DOI:10.1117/1.jmm.25.2.021208
摘要
Recently, ASML's EXE:5000 scanner has become operational, which uses a Numerical Aperture (NA) of 0.55, which is 67% higher than the 0.33 NA of the current generation of EUV scanners. This higher NA results in the printing of smaller features, which is essential for advancing semiconductor technology and sustaining Moore's Law. However, as NA increases, the incidence angles on wafer also increase, leading to a stronger variation of the aerial image through focus, thereby reducing the Depth-of-Focus (DOF). Due to a limited focus control in the scanner and the finite resist thickness, this reduced DOF could result in a pattern failure. This study explores the enhancement of DOF in high NA EUV lithography, particularly within the framework of logic metal clips and their building blocks, i.e. dense and isolated lines, and tip-to-tip (T2T) features, using a Dark Field mask and a negative tone resist. We explain by simulations and experiments that the overlapping DOF of Pitch 20, 40 and 60 nm horizontal Lines and Spaces can be significantly enhanced by using three strategies: illumination source optimization, mask feature corrections, and mask absorber stack optimization. Additionally, we clarify how these three strategies significantly improve T2T printing performance in terms of CD control and Local CD Uniformity. In conclusion, we show that by a rational application of the three optimization strategies, an acceptable overlapping DOF can be achieved.
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