亚5nm时代的新模式方案和技术

2018 International Symposium on VLSI Technology, Systems and Application (VLSI-TSA) Pub Date : 2018-04-01 DOI:10.1109/VLSI-TSA.2018.8403863

Angélique Raley, S. Thibaut, Kal Subhadeep, N. Mohanty, R. Farrell, Jeffrey T. Smith, A. Metz, Akiteru Ko, Anton DeVillier, P. Biolsi

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引用次数: 0

摘要

多模式使得芯片技术能够在28nm逻辑节点及以后继续扩展(见图1)。自对准双模(SADP)和自对准四模(SAQP)以及lithoo - etch / lithoo - etch迭代被广泛应用于半导体行业，用于FIN, Gate和金属线等关键层的浸没光刻分辨率达到193以下。多图案化需要使用多个蒙版，这是昂贵的，增加了过程的复杂性以及边缘放置误差的变化，主要是由覆盖驱动的。在我们的演讲中，我们将提出并演示新的模式概念，这些概念可以抑制这些缺点，并引领进一步扩展所需的下一个技术进步。我们还将调查与多模式选项相比，EUV模式的进展和成熟度。

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Novel patterning schemes and technologies for the sub 5nm era

Multipatterning has enabled continued scaling of chip technology at the 28nm logic node and beyond see Fig. 1. Self-aligned double patterning (SADP) and self-aligned quadruple patterning (SAQP) as well as Litho-Etch/Litho-Etch iterations are widely used in the semiconductor industry to reach sub 193 immersion lithography resolutions for critical layers such as FIN, Gate and Metal lines. Multipatterning requires the use of multiple masks, which is costly and increases process complexity as well as edge placement error variation mostly driven by overlay. In our presentation, we will propose and demonstrate novel patterning concepts, which can curb some of these downsides and usher in the next technological advancements required for further scaling. We will also survey the progress and maturity of EUV patterning in contrast to multipatterning options.

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2018 International Symposium on VLSI Technology, Systems and Application (VLSI-TSA)

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