Radical-based surface treatment and selective etch enabled by high density ICP remote plasma source

Qi Zhang, Haichun Yang, Y. Hsieh, Jiajun Chen, Jiaying Yang, T. Xie, Shanyu Wang, H. Chung
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Abstract

With Moore’s law continues to drive IC feature size and device density, advanced technology evolves to enable not only smaller feature size but also 3D structures for logic and memory chipmakers.1 The associated process requires precise surface/interface functionality and material loss control, as a result plasma damage free process and isotropic etch with high selectivity became crucial for advanced 3D transistor manufacturing. High density radical based processes provide ideal solutions with very low electron temperature, excellent step coverage and ultra-high selectivity. The highly reactive radicals can largely reduce thermal budget as well. In this article radical based surface treatments and material modifications including metal treatment, surface reduction and surface smoothing are discussed. Furthermore, the benefits of combining such surface treatment and radical based selective etch are also presented with examples of Si and TiN etch processes. Both surface treatment and selective etch processes are enabled by high density ICP plasmas generated radicals.
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基于自由基的表面处理和选择性蚀刻由高密度ICP远程等离子体源实现
随着摩尔定律继续推动IC特征尺寸和器件密度,先进技术的发展不仅可以实现更小的特征尺寸,还可以实现逻辑和存储芯片制造商的3D结构相关工艺需要精确的表面/界面功能和材料损耗控制,因此等离子体无损伤工艺和高选择性各向同性蚀刻对于先进的3D晶体管制造至关重要。高密度自由基基工艺提供了理想的解决方案,具有极低的电子温度,良好的步长覆盖和超高的选择性。高活性自由基也能大大减少热收支。本文讨论了基于自由基的表面处理和材料改性,包括金属处理、表面还原和表面平滑。此外,结合这种表面处理和自由基基选择性蚀刻的好处也提出了Si和TiN蚀刻工艺的例子。表面处理和选择性蚀刻工艺都是由高密度ICP等离子体产生的自由基实现的。
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