提高图案化性能的EUV堆栈基础

Nanoka Miyahara, Soichiro Okada, Hiroyuki Fujii, S. Shimura
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引用次数: 1

摘要

极紫外(EUV)光刻技术已经被用于大批量生产,而数值孔径(NA) 0.33的微型化已经接近极限。即使在0.33的NA下,单次曝光也可以分辨出间距为24 nm的线和空间(L/S)电阻模式。然而,蚀刻转移性能到底层材料是一个问题。特别是在窄节距情况下,由于缺乏抗蚀掩膜阻力,刻蚀非常困难。因此,我们在过去的论文中研究了优化发展过程和底层状态的抗蚀图案增厚工艺,并验证了图案高度的影响。结果表明,底层(UL)类型的组合及其状态是引领高质量模式的关键之一。本文对叠层结构、窄间距图案和光刻性能进行了优化。结果表明,在高NA EUV实验中,通过选择最佳ML/UL组合可以得到24 nm间距的L/S图案(接近最小尺寸,NA为0.33),并且在缺陷峭壁之间保留了一些无缺陷的工艺窗口。
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Fundamentals of EUV stack for improving patterning performance
Extreme ultraviolet (EUV) lithography has already utilized for high volume manufacturing, and miniaturization by numerical aperture (NA) 0.33 is approaching to the limit. Pitch 24 nm line and space (L/S) resist patterns can be resolved with single exposure at even NA 0.33. However, etch transfer performance to underlayer materials is one of the issues. Especially, in narrow pitch case, it is very difficult to etch due to the lack of resist mask resistance. Therefore, resist pattern thickening process with optimized development process and underlayer state was studied and verified the pattern height impact at our past paper. As a result, it found that combination of the underlayer (UL) kinds and their status was one of the key points to lead high-quality patterns. In this paper, optimized stack structure narrow pitch pattern and lithography performance. As a result, in experiments toward High NA EUV, 24 nm pitch L/S pattern could be patterned (near smallest size by NA 0.33) by selecting the optimal ML/UL combination, and some defect free process windows were kept between defect cliffs.
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