Practical requirement for reflectivity control in sub 30nm device using high NA immersion lithography

Lithography Asia Pub Date : 2008-12-04 DOI:10.1117/12.804671

Y. Jang, So-ra Han, Hyoung-hee kim, Jin-young Yoon, Shi-yong Lee, Kwang-sub Yoon, Seok-hwan Oh, Seong-woon Choi, W. Han

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Abstract

Reflectivity comparison study of bottom anti reflectivity coating (BARC) was investigated at 30nm node devices with same gate width at different pitch sizes. The goal of this study is to elucidate the practical target of reflectivity for high NA immersion lithography especially focusing on the changes in the CD variation. Using double patterning technology (DPT) and single patterning technology (SPT) patterns in high NA systems, we studied the impact of reflectivity to the lithography performance for various ARC thicknesses. A strong dependence of n, k values (of BARC and substrate) on reflectivity was confirmed by simulation. Standing wave effects were investigated by vertical profiles inspection and changes in lithographic performances. Finally, we investigated the critical dimension uniformity (CDU), and line width roughness (LWR) variations for various reflectivities using hard mask substrates. Our experimental and simulation results clearly show that a 0.1% reflectivity target is highly recommendable for the sub-30 nm device process using high NA immersion lithography.

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采用高NA浸没光刻技术的30nm以下器件反射率控制的实际要求

在不同节距尺寸、相同栅宽的30nm节点器件上，对底部抗反射涂层(BARC)的反射率进行了比较研究。本研究的目的是阐明高NA浸没光刻的反射率的实际目标，特别是关注CD变化的变化。利用双模技术(DPT)和单模技术(SPT)模式，研究了不同电弧厚度下反射率对光刻性能的影响。通过模拟证实了(BARC和衬底的)n、k值对反射率的强烈依赖性。通过垂直剖面检测和光刻性能变化研究了驻波效应。最后，我们研究了不同反射率下的临界尺寸均匀性(CDU)和线宽粗糙度(LWR)变化。我们的实验和模拟结果清楚地表明，对于使用高NA浸没光刻的sub- 30nm器件工艺，非常推荐0.1%的反射率目标。

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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Lithography Asia

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