Estimating extremely low probability of stochastic defect in extreme ultraviolet lithography from critical dimension distribution measurement

IF 1.5 2区物理与天体物理 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of Micro/Nanolithography, MEMS, and MOEMS Pub Date : 2019-05-03 DOI:10.1117/1.JMM.18.2.024002

H. Fukuda, Yoshinori Momonoi, Kei Sakai

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引用次数: 5

Abstract

Abstract. Projection lithography using extreme ultraviolet (EUV) light at 13.5-nm wavelength will be applied to the production of integrated circuits below 7-nm design rules. In pursuit of further miniaturization, however, stochastic pattern defect problems have arisen, and monitoring such defect generation probabilities in extremely low range (<10 − 10) is indispensable. We discuss a method for predicting stochastic defect probabilities from a histogram of feature sizes for patterns several orders of magnitude fewer than the number of features to inspect. Based on our previously introduced probabilistic model of stochastic pattern defect, the defect probability is expressed as the product sum of the probability for edge position and the probability that film defect covers the area between edges, and we describe the latter as a function of edge position. The defect probabilities in the order between 10 − 7 and 10 − 5 were predicted from 105 measurement data for real EUV-exposed wafers, suggesting the effectiveness of the model and its potential for defect inspection.

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从临界尺寸分布测量中估计极紫外光刻中极低概率随机缺陷

摘要使用13.5 nm波长的极紫外(EUV)光的投影光刻技术将应用于7 nm以下设计规则的集成电路生产。然而，在追求进一步小型化的过程中，出现了随机模式缺陷问题，在极低的范围内(<10−10)监测这种缺陷的产生概率是必不可少的。我们讨论了一种从特征尺寸直方图中预测随机缺陷概率的方法，该直方图比要检查的特征数量少几个数量级。基于我们之前介绍的随机图案缺陷的概率模型，缺陷概率表示为边缘位置的概率与薄膜缺陷覆盖边缘之间区域的概率的乘积和，并将后者描述为边缘位置的函数。从实际暴露于euv下的105个晶圆的测量数据中预测出10−7到10−5之间的缺陷概率，表明了该模型的有效性及其缺陷检测的潜力。

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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