Metal Layer Monitoring in DRAM Production by use of Spectroscopic Ellipsometry-based Scatterometry

The 17th Annual SEMI/IEEE ASMC 2006 Conference Pub Date : 2006-05-22 DOI:10.1109/ASMC.2006.1638719

M. Wang, J. Chen, T. Cheng, C. Chang, T. Wang

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引用次数: 3

Abstract

Current available metrology methods for metal layer line monitoring could include atomic force microscopic (AFM) scanning for trench depth measurement and top-down secondary electron microscope for CD measurement (CD-SEM). However, they both suffer from incomplete information outputs and repeatability issue. Transmission electron microscope (TEM) cross-sections and SEM cross-sections are the two major techniques for obtaining detailed profile information. However, both they are destructive and time-consuming. Scatterometry comes in as a potential process-monitoring candidate for the metal layer process. In this work, we use SE-based scatterometry to demonstrate a two-dimensional profile of the metal trench profile with post-etched structure, as well as CD and depth measurements of the trench. Theory and measurement results of dense structure are briefly discussed. These results are correlated to SEM cross-sections, AFM measurements and CD-SEM measurements. The data shows high correlation between them. Moreover, WAT data were seen a high correlation result in the paper as well

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基于椭圆偏振散射法的DRAM生产中金属层监测

目前可用的金属层线监测的测量方法包括原子力显微镜(AFM)扫描测量沟槽深度和自上而下二次电子显微镜(CD- sem)测量CD。但是，它们都存在信息输出不完整和可重复性问题。透射电子显微镜(TEM)和扫描电子显微镜(SEM)是获得详细剖面信息的两种主要技术。然而，这两种方法都是破坏性和耗时的。散射测量法是金属层工艺的潜在过程监测候选方法。在这项工作中，我们使用基于se的散射测量来展示具有后蚀刻结构的金属沟槽轮廓的二维轮廓，以及沟槽的CD和深度测量。简要讨论了致密结构的理论和测量结果。这些结果与SEM横截面，AFM测量和CD-SEM测量相关。数据显示它们之间有很高的相关性。此外，WAT数据在本文中也出现了高度相关的结果

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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The 17th Annual SEMI/IEEE ASMC 2006 Conference

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