Accurate mask registration on tilted lines for 6F2 DRAM manufacturing

SPIE Photomask Technology Pub Date : 2015-10-23 DOI:10.1117/12.2202818

K. D. Roeth, W. Choi, Y. Lee, S. Kim, D. Yim, F. Laske, M. Ferber, M. Daneshpanah, E. Kwon

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引用次数: 3

Abstract

193nm immersion lithography is the mainstream production technology for the 22nm half pitch (HP) DRAM manufacturing. Considering multi-patterning as the technology to solve the very low k1 situation in the resolution equation puts extreme pressure on the intra-field overlay, to which mask registration error may be a significant error contributor [3]. The International Technology Roadmap for Semiconductors (ITRS [1]) requests a registration error below 4 nm for each mask of a multi-patterning set forming one layer on the wafer. For mask metrology at the 22nm HP node, maintaining a precision-to-tolerance (P/T) ratio below 0.25 will be very challenging. Mask registration error impacts intra-field wafer overlay directly and has a major impact on wafer yield. DRAM makers moved several years ago to 6F2 (figure 1, [2]) cell design and thus printing tilted lines at 15 or 30 degree. Overlay of contact layer over buried line has to be well controlled. However, measuring mask registration performance accurately on tilted lines was a challenge. KLA Tencor applied the model-based algorithm to enable the accurate registration measurement of tilted lines on the Poly layer as well as the mask-to-mask overlay to the adjacent contact layers. The metrology solution is discussed and measurement results are provided.

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用于6F2 DRAM制造的倾斜线上的精确掩码配准

193nm浸没光刻是22nm半间距(HP) DRAM制造的主流生产技术。考虑多模式作为解决分辨率方程中k1非常低的情况的技术，会给场内叠加带来极大的压力，其中掩模配准误差可能是一个重要的误差贡献因素[3]。国际半导体技术路线图(ITRS[1])要求在晶圆上形成一层的多模式集的每个掩模的配准误差低于4nm。对于22nm HP节点的掩模计量，保持精度与公差(P/T)比低于0.25将是非常具有挑战性的。掩模配准误差直接影响场内晶圆覆盖，对晶圆产量有重要影响。几年前，DRAM制造商转向6F2(图1，[2])电池设计，从而打印15或30度的倾斜线。埋地线路上接触层的覆盖要控制好。然而，在倾斜的直线上准确测量掩模配准性能是一个挑战。KLA Tencor应用基于模型的算法，实现了Poly层上倾斜线的精确配准测量，以及相邻接触层的掩模到掩模叠加。讨论了计量方案，并给出了测量结果。

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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SPIE Photomask Technology

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