接触孔收缩工艺放置误差的涂层显影轨迹系统研究

SPIE Advanced Lithography Pub Date : 2016-04-01 DOI:10.1117/12.2219925

M. Harumoto, H. Stokes, Yuji Tanaka, K. Kaneyama, C. Pieczulewski, M. Asai, I. Servin, M. Argoud, A. Gharbi, C. Lapeyre, R. Tiron, C. Monget

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引用次数: 2

摘要

定向自组装(DSA)是下一代sub-15nm半间距光刻技术的公认候选技术。[1-2] 300mm晶圆上的DSA工艺已经证明了几年，并且由于更精细的图案结果而给人留下了深刻的印象。[3-4]另一方面，由于这些最近的挑战，DSA过程的具体问题已经开始变得清晰。[5-6]模式放置误差，即DSA制造后的模式偏移，被认为是这些典型问题之一。涂层-开发轨道系统有助于DSA图案的制造，也影响DSA图案的性能。[4]在这项研究中，使用简单的接触孔模式和随后在SOKUDO DUO轨道上实现的接触孔收缩工艺来研究放置误差。因此，我们将展示使用DSA工艺的接触孔收缩的放置误差，并讨论DSA与其他收缩方法的区别。

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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Investigation of coat-develop track system for placement error of contact hole shrink process

Directed Self-Assembly (DSA) is a well-known candidate for next generation sub-15nm half-pitch lithography. [1-2] DSA processes on 300mm wafers have been demonstrated for several years, and have given a strong impression due to finer pattern results. [3-4] On t he other hand, specific issues with DSA processes have begun to be clear as a result of these recent challenges. [5-6] Pattern placement error, which means the pattern shift after DSA fabrication, is recognized as one of these typical issues. Coat-Develop Track systems contribute to the DSA pattern fabrication and also influence the DSA pattern performance.[4] In this study, the placement error was investigated using a simple contact-hole pattern and subsequent contact-hole shrink process implemented on the SOKUDO DUO track. Thus, we will show the placement error of contact-hole shrink using a DSA process and discuss the difference between DSA and other shrink methods.

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SPIE Advanced Lithography

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