Title :
Improvement of threshold voltage deviation in damascene metal gate transistors
Author :
Yagishita, Atsushi ; Saito, Tomohiro ; Nakajima, Kazuaki ; Inumiya, Seiji ; Matsuo, Kouji ; Shibata, Takeshi ; Tsunashima, Yoshitaka ; Suguro, Kyoichi ; Arikado, Tsunetoshi
Author_Institution :
Process & Manuf. Eng. Center, Toshiba Corp., Yokohama, Japan
fDate :
8/1/2001 12:00:00 AM
Abstract :
The metal gate work function deviation (crystal orientation deviation) was found to cause the threshold voltage deviation (ΔV th) in the damascene metal gate transistors. When the TiN work function (crystal orientation) is controlled by using the inorganic CVD technique, ΔVth of the surface channel damascene metal gate (Al/TiN or W/TiN) transistors was drastically improved and found to be smaller than that for the conventional polysilicon gate transistors. The reason for the further reduction of the threshold voltage deviation (ΔVth) in the damascene metal gate transistors is considered to be that the thermal-damages and plasma-damages on gate and gate oxide are minimized in the damascene gate process. High performance sub-100 nm metal oxide semiconductor field effect transistors (MOSFETs) with work-function-controlled CVD-TiN metal-gate and Ta2O5 gate insulator are demonstrated in order to confirm the compatibility with high-k gate dielectrics and the technical advantages of the inorganic CVD-TiN
Keywords :
MOSFET; chemical vapour deposition; crystal orientation; dielectric thin films; work function; Al-TiN-Ta2O5; W-TiN-Ta2O5; compatibility; crystal orientation deviation; damascene metal gate transistors; gate oxide; high-k gate dielectrics; inorganic CVD technique; metal oxide semiconductor field effect transistors; plasma-damages; thermal-damages; threshold voltage deviation; work function deviation; Chemical processes; Dielectrics; Electrodes; FETs; MOSFETs; Metal-insulator structures; Plasma immersion ion implantation; Plasma temperature; Threshold voltage; Tin;
Journal_Title :
Electron Devices, IEEE Transactions on
