Mask absorber, mask tone, and wafer process impact on resist line-edge-roughness

Journal of micro/nanopatterning, materials, and metrology Pub Date : 2023-10-13 DOI:10.1117/1.jmm.22.4.044801

Eisuke Ohtomi, Vicky Philipsen, Ulrich Welling, Lawrence S. Melvin, Yosuke Takahata, Yusuke Tanaka, Danilo De Simone

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Abstract

A high-numerical-aperture (NA) extreme ultraviolet lithography (EUVL) system has been highly desired and is now under construction at imec-ASML High NA Laboratory in Veldhoven. However, there are still many challenges to realizing high-volume manufacturing by High NA EUVL. Line edge roughness (LER) mitigation is one of the key elements. In our previous research, we studied how the normalized image log slope (NILS) and resist film thickness affect resist LER by exposure at NA 0.33 on NXE:3400 and S-Litho EUV. However, the mask absorber, mask tone, exposure dose, and postexposure bake (PEB) temperature were not the subject of previous investigations for decreasing LER. They have the potential to mitigate resist roughness such as illumination and resist thickness studied previously. Unbiased LER values of metal oxide resists (MOR) were experimentally measured on a half-pitch (hp) 14 nm line and space under several mask absorber/tonality, dose, and PEB temperature values. Per the mask absorber/tone, the NILS was varied using different illumination shapes. Low-n masks exhibited a higher NILS for the same illumination shape, which resulted in lower resist LER on the wafer. It was also found that the mask tone can contribute to LER mitigation. According to detailed investigations about the mask roughness, mask error enhancement factor, and flare by critical dimension scanning electron microscope (CD-SEM) measurements and S-Litho EUV, the most likely reason for the LER difference is a flare increase given by mask tone changes. From the dose and PEB temperature variation study, dose was apparently more dominant in resisting roughness than PEB temperature.

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掩模吸收器、掩模色调和晶圆工艺对抗蚀剂线条边缘粗糙度的影响

一个高数值孔径(NA)极紫外光刻(EUVL)系统已经得到了高度的期望，目前正在Veldhoven的imec-ASML高数值孔径实验室建设中。然而，要实现高NA EUVL的大批量生产，仍面临许多挑战。线边缘粗糙度(LER)的缓解是关键因素之一。在我们之前的研究中，我们通过在NXE:3400和S-Litho EUV上以NA 0.33曝光，研究了归一化图像对数斜率(NILS)和抗蚀膜厚度对抗蚀剂LER的影响。然而，掩膜吸收剂、掩膜色调、暴露剂量和暴露后烘烤(PEB)温度并不是先前研究降低LER的主题。它们有可能减轻先前研究的抗粗糙度，如照明和抗厚度。在半间距(hp) 14 nm线和空间上实验测量了几种掩膜吸收剂/调性、剂量和PEB温度值下金属氧化物电阻(MOR)的无偏LER值。根据掩膜吸收剂/色调，NILS使用不同的照明形状而变化。在相同照明形状下，低n掩模具有较高的NILS，导致晶圆上的电阻LER较低。还发现掩模音调有助于减缓LER。根据临界尺寸扫描电镜(CD-SEM)和S-Litho EUV对掩模粗糙度、掩模误差增强因子和耀斑的详细研究，LER差异的最可能原因是掩模色调变化引起的耀斑增加。从剂量和PEB温度的变化研究来看，剂量在抗粗糙度方面明显优于PEB温度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of micro/nanopatterning, materials, and metrology

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