Mask manufacturing of advanced technology designs using multi-beam lithography (Part 1)

European Mask and Lithography Conference Pub Date : 2016-10-20 DOI:10.1117/12.2247941

Michael Green, Y. Ham, Brian Dillon, B. Kasprowicz, Ikboum Hur, Joong Hee Park, Yohan Choi, J. McMurran, Henry H. Kamberian, D. Chalom, J. Klikovits, Michal Jurkovič, P. Hudek

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引用次数: 4

Abstract

As optical lithography is extended into 10nm and below nodes, advanced designs are becoming a key challenge for mask manufacturers. Techniques including advanced Optical Proximity Correction (OPC) and Inverse Lithography Technology (ILT) result in structures that pose a range of issues across the mask manufacturing process. Among the new challenges are continued shrinking Sub-Resolution Assist Features (SRAFs), curvilinear SRAFs, and other complex mask geometries that are counter-intuitive relative to the desired wafer pattern. Considerable capability improvements over current mask making methods are necessary to meet the new requirements particularly regarding minimum feature resolution and pattern fidelity. Advanced processes using the IMS Multi-beam Mask Writer (MBMW) are feasible solutions to these coming challenges. In this paper, we study one such process, characterizing mask manufacturing capability of 10nm and below structures with particular focus on minimum resolution and pattern fidelity.

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利用多光束光刻技术制造先进的掩模设计(第一部分)

随着光刻技术扩展到10nm及以下节点，先进的设计正成为掩模制造商面临的关键挑战。包括先进的光学接近校正(OPC)和逆光刻技术(ILT)在内的技术导致在整个掩模制造过程中产生一系列问题的结构。新的挑战包括不断缩小的亚分辨率辅助特征(SRAFs)、曲线SRAFs和其他复杂的掩模几何形状，这些几何形状与期望的晶圆图案相反。为了满足新的要求，特别是在最小特征分辨率和模式保真度方面，需要对当前掩模制作方法进行相当大的能力改进。采用IMS多波束掩码编写器(MBMW)的先进工艺是应对这些即将到来的挑战的可行解决方案。在本文中，我们研究了一种这样的工艺，表征了10nm及以下结构的掩模制造能力，特别关注最小分辨率和图案保真度。

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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European Mask and Lithography Conference

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