多波束图像化技术及5nm以上掩模制作

B. Shamoun, Z. Alberti, I. Bucay, S. Ellis, Michael Erickson, B. Liu, M. Chandramouli, A. Sowers, F. Abboud, G. Hochleitner, M. Tomandl, C. Klein, E. Platzgummer
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摘要

晶圆制造行业增加了主要特征和子分辨率辅助特征(SRAF)的模式复杂性,这是改善EUV光刻工艺窗口和实现前沿技术节点所必需的。与此同时,逆光刻技术(ILT)及其对曲线数据结构的要求近年来势头强劲,给掩模制造商,特别是掩模制造商带来了压力。为了满足高模式分辨率和大数据量的曲线特征要求,掩码编写者需要开发创新的技术和更新其误差补偿策略。在本文中,我们将研究图案分辨率,局部临界尺寸均匀性(LCDU)和线边缘粗糙度(LER),并探讨多光束写入技术的预期改进,并强调其满足EUV光刻要求的能力。我们还将研究抗蚀剂和工艺对这些关键掩模指标的作用,以说明根据晶圆要求的整体性能。在Intel mask Operation (IMO)上对MBMW201多光束写入器进行了EUV掩模暴露试验,研究了写入光束直径和相关模糊、掩模暴露剂量和光刻胶对图案分辨率、lcd du和LER的影响。分析模型也被用来预测趋势和确定这些光刻指标的依赖于作家曝光条件。
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Multi-beam patterning technology and mask making beyond 5nm
The wafer manufacturing industry has increased pattern complexity of the main feature and sub-resolution assist feature (SRAF) required for improving the EUV lithography process window and enabling the leading-edge technology nodes. In parallel, Inverse Lithography Technology (ILT) and its requirements of curvilinear data structure has gained momentum in recent years, putting the pressure on mask makers, in particular the mask writer. To fulfill the curvilinear feature requirements of high pattern resolution and large data volume, the mask writer needs to develop innovative techniques and update its error compensation strategies. In this paper, we will investigate the pattern resolution, local critical dimension uniformity (LCDU), and line edge roughness (LER) and explore the projected improvements in multi-beam writer technology and highlight its capability against EUV lithography requirements. We will also investigate the role of resist and process on these critical mask metrics to illustrate the overall performance against wafer requirements. EUV mask exposure tests were conducted at Intel Mask Operation (IMO) on a MBMW201 multi-beam writer to study the effects of writing beam diameter and associate blurs, mask exposure dose, and photoresist on pattern resolution, LCDU, and LER. An analytical model was also used to predict the trend and determine the dependency of these lithographic metrics on the writer exposure conditions.
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