自对准四重模式集成使用间隔上间隔间距分裂在抗蚀剂水平为32nm以下间距应用

SPIE Advanced Lithography Pub Date : 2016-04-01 DOI:10.1117/12.2219321

Angélique Raley, S. Thibaut, N. Mohanty, Kal Subhadeep, Satoru Nakamura, Akiteru Ko, D. O'meara, K. Tapily, S. Consiglio, P. Biolsi

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引用次数: 19

摘要

在追求降低成本和实现所需的关键尺寸方面，用于193nm以下光刻分辨率的多种图案集成正变得越来越有创造性。在生产中实现这些方案可能是一个挑战。为了降低10nm及以上节点的多重图案相关成本，我们将提出一种自对准四倍图案策略，该策略使用193nm浸没光刻抗蚀剂图案作为第一芯轴，并将间隔片集成在间隔片上，以实现30nm的最终间距。此选项可用于前端或后端关键层，如Fin和Mx。对低温ALD薄膜(如TiO, Al2O3和SiO2)组合的研究将进行回顾，以确定满足要求的选择性，LER/LWR和cd的最佳候选材料。

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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Self-aligned quadruple patterning integration using spacer on spacer pitch splitting at the resist level for sub-32nm pitch applications

Multiple patterning integrations for sub 193nm lithographic resolution are becoming increasingly creative in pursuit of cost reduction and achieving desired critical dimension. Implementing these schemes into production can be a challenge. Aimed at reducing cost associated with multiple patterning for the 10nm node and beyond, we will present a self-aligned quadruple patterning strategy which uses 193nm immersion lithography resist pattern as a first mandrel and a spacer on spacer integration to enable a final pitch of 30nm. This option could be implemented for front end or back end critical layers such as Fin and Mx. Investigation of combinations of low temperature ALD films such as TiO, Al2O3 and SiO2 will be reviewed to determine the best candidates to meet the required selectivities, LER/LWR and CDs.

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SPIE Advanced Lithography

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