TEM Failure Analysis and Root Cause Understanding of Nitride Spacer Bridging In 45nm Semiconductor Manufacturing Processes

机译：在45nm半导体制造工艺中氮化物间隔物桥接的TEM失效分析和根本原因理解

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Abnormal inline defects were caught after nitride spacer etching processes. Detailed MEBES layout checking and inline SEM inspection revealed that such defects always appeared at the boundaries in between PFETs and NFETs regions. The microstructure and chemical composition of the defects were analyzed in detail by various TEM imaging and microanalysis techniques. The results indicated that the defect possessed core-shell structure, with oxide core and nitride shell. Based on the TEM failure analysis results and manufacturing processes, we conclude that the defects originated from PR fencing due to the PR hardening during PFET and NFET LDD/Halo implantation. The oxide core was generated during oxide spacer formation using an ozone-TEOS process, which was responsible for the nitride spacer under-etch issue.

机译：在氮化物间隔物蚀刻工艺之后捕获了异常的在线缺陷。详细的MEBES布局检查和在线SEM检查显示，此类缺陷总是出现在PFET和NFET区域之间的边界处。通过各种TEM成像和显微分析技术详细分析了缺陷的微观结构和化学成分。结果表明，该缺陷具有核-壳结构，具有氧化物核和氮化物壳。根据TEM失效分析结果和制造工艺，我们得出的结论是，由于PFET和NFET LDD / Halo注入过程中的PR硬化而导致的缺陷源自PR栅栏。使用臭氧-TEOS工艺在氧化物间隔层形成过程中生成了氧化物核，这是造成氮化物间隔层蚀刻不足的原因。

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《International symposium for testing and failure analysis》|2012年|574-577|共4页
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Liu Binghai; Mo Zhiqiang; Zhao Si Ping; Yao Yuan; Teo Kim Hong; Chen Ye; Tee Irene; Lee Gek Li; Chen Changqing; Ang Ghim Boon; YOGASPARI; Robin Tan;
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TEM Failure Analysis and Root Cause Understanding of Nitride Spacer Bridging In 45nm Semiconductor Manufacturing Processes

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