Overlay error investigation for metal containing resist

IF 1.5 2区 物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
R. Gronheid, Satomi Higashibata, Onur N. Demirer, Yusuke Tanaka, D. van den Heuvel, M. Mao, Masaru Suzuki, S. Nagai, Waikin Li, P. Leray
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引用次数: 1

Abstract

Abstract. Metal containing resists (MCR) are one of the candidates for extreme ultraviolet resists aiming to achieve the resolution, linewidth roughness, and sensitivity requirements of advanced design nodes. MCRs intrinsically have high etch resistance owing to their metal content. Therefore, low resist thickness (∼18  nm) is sufficient to transfer resist patterns into an underlying hard mask. Also, the thin resist reduces susceptibility to pattern collapse during development because of low aspect ratio. However, thus far, little attention has been paid to optical metrology and inspectability (overlay, defect inspection, scatterometry, etc.) of these resists, which is another critical requirement to move MCR toward high-volume manufacturing. We investigate the overlay metrology and overlay correction with MCR. Even though the optical contrast for MCR is slightly lower than for chemically amplified resist (CAR), it seemed sufficient for high-quality overlay metrology. However, the measurement precision for MCR is deteriorated compared to that for CAR, resulting in significantly higher residuals. The root cause of the deteriorated measurement precision was found in grains in the optical image after MCR development. Interestingly, the after etch performance of CAR and MCR is identical. We demonstrate that with sufficient sampling, appropriate correctables can be extracted from the MCR overlay results. Finally, we discuss how the increased image noise can be compensated by the applied sampling scheme.
含抗蚀剂金属覆盖层误差研究
摘要含金属抗蚀剂(MCR)是极紫外抗蚀剂的候选材料之一,旨在达到先进设计节点的分辨率、线宽粗糙度和灵敏度要求。mcr的金属含量使其具有较高的耐蚀性。因此,低抗蚀剂厚度(~ 18 nm)足以将抗蚀剂图案转移到底层的硬掩模中。此外,由于低纵横比,薄抗蚀剂减少了在显影过程中对图案坍塌的敏感性。然而,到目前为止,很少有人关注这些抗蚀剂的光学计量和可检测性(覆盖、缺陷检测、散射测量等),这是将MCR推向大批量生产的另一个关键要求。研究了基于MCR的叠加计量和叠加校正方法。尽管MCR的光学对比度略低于化学放大抗蚀剂(CAR),但它似乎足以用于高质量的覆盖计量。然而,与CAR相比,MCR的测量精度下降了,导致残差明显更高。MCR显影后光学图像中的颗粒是导致测量精度下降的根本原因。有趣的是,CAR和MCR的蚀刻后性能是相同的。我们证明,通过足够的采样,可以从MCR叠加结果中提取适当的校正值。最后,我们讨论了如何通过应用采样方案来补偿增加的图像噪声。
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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来源期刊
CiteScore
3.40
自引率
30.40%
发文量
0
审稿时长
6-12 weeks
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