Vertically Stacked Gate-All-Around Si Nanowire Cmos Transistors With Dual Work Function Metal Gates
2016 IEEE INTERNATIONAL ELECTRON DEVICES MEETING (IEDM)(2016)
摘要
We report on the CMOS integration of vertically stacked gate-all-around (GAA) silicon nanowire MOSFETs, with matched threshold voltages ( V-T,V-SAT similar to 0.35V) for N- and P-type devices. The V-T setting is enabled by nanowire-compatible dual-work-function metal integration in a high-k last replacement metal gate process. Furthermore, we demonstrate that N- and P-type junction formation can influence nanowire release differently due to both implantation-induced SiGe/Si intermixing and doping effects. These findings underline that junction formation and nanowire release require co-optimization in GAA CMOS technologies.
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关键词
Si,SiGe-Si,vertically stacked gate-all-around silicon nanowire CMOS transistor,dual work function metal gate,GAA nanowire MOSFET,matched threshold voltages,p-type device,n-type device,high-k last replacement metal gate process,P-type junction formation,N-type junction formation,doping effects,implantation-induced intermixing
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