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Novel stress-memorization-technology (SMT) for high electron mobility enhancement of gate last high-k/metal gate devices

Kwanyong Lim,Hyunjung Lee,Choongryul Ryu,Kangill Seo,Uihui Kwon,Seokhoon Kim, Jongwan Choi,Kyungseok Oh, Heekyung Jeon,Chulgi Song,Taeouk Kwon, Jinyeong Cho,Seunghun Lee, Yangsoo Sohn,Hong Sik Yoon,Junghyun Park,Kwanheum Lee,Wookje Kim,Eunha Lee,Sangpil Sim, Chung Geun Koh,Sang Bom Kang,Siyoung Choi,Chilhee Chung

Electron Devices Meeting(2010)

引用 67|浏览16
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摘要
High-k/metal gate (HKMG) compatible high performance Source/Drain (S/D) stress-memorization-technology (SMT) is presented. Channel stress generated by SMT can be simulated by using mask-edge dislocation model, which is consistent with the measured actual channel stress. Extremely deep pre-amorphization-implant (PAI) for SMT creates multiple mask-edge dislocations under S/D region, which enhances short-channel mobility by 40~60%. Finally, more than 10% short channel drive current gain is achieved with additional S/D extension optimization.
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关键词
high electron mobility transistors,logic gates,channel stress,gate last high-k/metal gate devices,high electron mobility enhancement,mask-edge dislocation model,pre-amorphization-implant,source/drain stress-memorization-technology,stress,strain,degradation,optimization,dislocations
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