Mask qualification of a shifted gate contact issue by physical e-beam inspection and high landing energy SEM review : DI: Defect Inspection and Reduction

2019 30th Annual SEMI Advanced Semiconductor Manufacturing Conference (ASMC) Pub Date : 2019-05-01 DOI:10.1109/ASMC.2019.8791751

J. G. Sheridan, Hsiao-Chi Peng, C. Huang, V. Aristov, Hoang Nguyen, Y. Khopkar, Abhinav Jain, Jay K Shah, F. Levitov

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引用次数: 1

Abstract

Photomask issues can result in shifted pattern defects printed on the wafer. In the case of sub-1x nm nodes, these pattern defects of interest (DOI) can be difficult for conventional optical inspections to detect. In this paper we present a case study of a new mask qualification for a MOL gate open (GO) contact mask layer. The new mask was introduced to compensate for a known open between trench silicide (TS) contact and GO. During qualification, a shift in the GO overlay was seen on one section of the wafer and suspected to be the cause of a TS-gate short. A Design of Experiments (DOE) was created to investigate if the issue was solely mask related or if it could be mitigated during processing (litho/etch). Physical mode e-beam inspection was used to monitor the DOE wafers, however the resolution of the e-beam inspection tool was not sufficient to conclusively classify the defects observed. A high resolution, high landing energy SEM defect review was introduced post e-beam inspection to better monitor the splits running as part of the DOE.

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通过物理电子束检查和高着陆能量扫描电镜对移位栅极接触问题的掩模鉴定:DI:缺陷检查和减少

光掩模问题可能导致晶圆片上印刷的图案移位缺陷。在sub-1x nm节点的情况下，这些感兴趣的图案缺陷(DOI)很难被传统的光学检测检测到。在本文中，我们提出了一个关于MOL栅极打开(GO)接触掩膜层的新掩膜资格的案例研究。引入新的掩膜是为了弥补沟槽硅化物(TS)接触和氧化石墨烯之间已知的开放。在鉴定过程中，在晶圆片的一个部分上发现了氧化石墨烯覆盖层的移位，并怀疑这是ts栅极短路的原因。实验设计(DOE)的创建是为了调查问题是否完全与掩模相关，或者是否可以在处理(光刻/蚀刻)期间减轻问题。采用物理模式电子束检测来监测DOE晶圆，但电子束检测工具的分辨率不足以对观察到的缺陷进行决定性分类。在电子束检查后，引入了高分辨率、高着陆能量的SEM缺陷检查，以更好地监控劈裂作为DOE的一部分运行。

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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2019 30th Annual SEMI Advanced Semiconductor Manufacturing Conference (ASMC)

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