Development of silicon glass for etch reverse layer (SiGERL) materials and BARCs for double patterning process

Lithography Asia Pub Date : 2009-12-11 DOI:10.1117/12.837157

Yasushi Sakaida, H. Yaguchi, Rikimaru Sakamoto, B. Ho

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引用次数: 4

Abstract

Materials and processes for double patterning using 193nm immersion lithography has been developed for the 32/22 nm node device generations. As for double patterning , some patterning methods have already been reported. For instance, there are LELE (Litho Etch Litho Etch) process and LFLE (Litho Freeze Litho Etch) process. LELE process is complicate and low throughput compared to LFLE process. On the other hand, freezing process and freezing material are needed in LFLE process. Then, we examined the process and the material that was able to form a minute pattern without increasing the number of processes as much as possible. The following is examined as a fine hole patterning process. At first, the pillar pattern is obtained by the X-Y double line dipole exposure. Secondly, the reverse material is applied on the pillar pattern and the subsequent process (dry etching or wet etching process) converts the pillar pattern into a hole pattern. We examined the reverse process and materials, including Silicon Glass for Etch Reverse Layer (SiGERL),and organic Bottom-Anti-Reflective coating (BARC) which is adequate for reflectivity control, lithography and the etching process.

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用于蚀刻反向层(sigl)材料的硅玻璃和用于双图案工艺的BARCs的开发

采用193nm浸没式光刻技术进行双图像化的材料和工艺已经为32/22 nm节点器件开发。对于双图案化，已有一些图案化方法的报道。例如，有LELE (Litho Etch)工艺和LFLE (Litho Freeze Litho Etch)工艺。与LFLE工艺相比，LELE工艺复杂，吞吐量低。另一方面，在LFLE过程中需要冷冻过程和冷冻材料。然后，我们检查了能够在不增加尽可能多的工艺数量的情况下形成微小图案的工艺和材料。下面是作为一个细孔图案的过程进行检查。首先，通过X-Y双线偶极子曝光得到柱状图。其次，将所述反向材料涂于所述柱状图案上，随后的工艺(干蚀刻或湿蚀刻工艺)将所述柱状图案转换为孔状图案。我们研究了反向工艺和材料，包括用于蚀刻反向层的硅玻璃(SiGERL)和用于反射率控制、光刻和蚀刻工艺的有机底部抗反射涂层(BARC)。

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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