The study and investigation of inline E-beam inspection for 28nm process development

2017 China Semiconductor Technology International Conference (CSTIC) Pub Date : 2017-03-01 DOI:10.1109/CSTIC.2017.7919848

Yin Long, R. Fan, Hungling Chen, Haihua Li

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引用次数: 2

Abstract

The research aims at the VC (voltage contrast) of contact-loop defects in 28nm processes. A new type defect, contact W (tungsten) missing, was found during process developments, and the designed inline E-beam inspection was used to detect those defects by their VC features. The mechanism of defects and the method of the enhancement of the detection were described. An extreme high signal E-beam scan recipe is required in corresponding to the unique defect wanted and, in doing so, the partial-opened W missing defects can be found. Since the defect can be detected instantly by E-beam inspection, and therefore an inline monitoring index can be set up. Compared to the end-of-line electrical test, this inline monitor is very much closer to the trouble process and shrinks the response time. The following process experiments and evaluation can be instantly verified and examined. Finally, the W missing defect was fixed by an optimization of CT Etch process and controlling of CT loop minienvironment. Instead to the debug method of failure analysis, E-beam inspection can speed up 8nm development.

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面向28nm工艺开发的在线电子束检测研究

针对28nm工艺中接触回路缺陷的VC(电压对比)进行研究。在工艺开发过程中发现了一种新型缺陷，即接触W(钨)缺失，并利用所设计的在线电子束检测方法根据缺陷的VC特征对其进行检测。介绍了缺陷产生的机理和加强检测的方法。需要一个极高的高信号电子束扫描配方来对应所需要的独特缺陷，这样做，可以找到部分打开的W缺失缺陷。由于电子束检测可以即时检测到缺陷，因此可以建立在线监测指标。与线路末端的电气测试相比，这种内联监视器更接近故障过程，并缩短了响应时间。下面的工艺实验和评价可以立即得到验证和检验。最后，通过优化CT刻蚀工艺和控制CT回路微环境，修复了W缺失缺陷。代替故障分析的调试方法，电子束检测可以加快8nm的开发速度。

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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2017 China Semiconductor Technology International Conference (CSTIC)

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