了解先进化学放大EUV抗蚀剂的蚀刻性能

J. Park, E. Aqad, Yinjie Cen, S. Coley, Li Cui, Conner A. Hoelzel, Benjamin Naab, Choong-Bong Lee, Rochelle Rena, Philjae Kang, Y. Shin, David Limberg, Lei Zhang
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摘要

极紫外(EUV)光刻技术使集成电路工业能够批量生产具有更小间距和更高密度的芯片。随着EUV工具的进步,EUV化学放大抗蚀剂(CAR)材料的开发和进步也取得了重大进展,这使得分辨率、线边缘粗糙度和灵敏度(RLS)的权衡得到了改善。由于极紫外光光子的稀少,在13.5 nm处具有高吸收率的抗蚀剂材料得到了发展。然而,对公开文献的回顾显示,关于高EUV吸收元素对高级EUV抗蚀剂腐蚀性能影响的报道非常有限。为了确保摩尔定律继续向前发展,需要进一步改进抗蚀性能。在这方面,由光子噪声、材料和加工变化引起的随机缺陷对CAR平台的扩展提出了独特的挑战,以实现较小节点的图案化。值得注意的是,很少注意到在蚀刻过程中形成的缺陷用于图案转移。本文报道了抗蚀剂补色与蚀刻性能之间的关系。特别考察了加入EUV高吸收元素的影响。本文将讨论持续改善EUV CAR光刻性能的新型抗蚀剂设计策略。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Understanding etch properties of advanced chemically amplified EUV resist
Extreme ultraviolet (EUV) lithography technology empowers integrated circuit industry to mass produce chips with smaller pitches and higher density. Along with EUV tool advancement, significant progress has also been made in the development and advancement of EUV chemically amplified resist (CAR) materials, which allows for the improvement of resolution, line edge roughness, and sensitivity (RLS) trade-off. The scarce number of EUV photons has triggered the development of resist material with high absorption at 13.5 nm. However, a review of open literature reveals very limited reports on the effect of high EUV absorption elements on etch properties of advanced EUV resist. To ensure Moore’s Law continues to move forward, further resist performance improvement is required. In this regard, stochastic defects originating from photon shot noise, materials, and processing variabilities present a unique challenge for the extension of CAR platform for the patterning of smaller nodes. Notably, less attention has been paid to defects formed during the etching process used for pattern transfer. In this paper, we report on the relationship between resist make-up and etch properties. In particular, the effect of incorporation of EUV high absorbing elements are examined. New resist material design strategies for continuous improvement of EUV CAR lithographic performance will be discussed.
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