Title :
Advanced metal-gate/high-κ CMOS with small EOT and better high field mobility
Author :
Chin, Alvin ; Chen, W.B. ; Chen, P.C. ; Wu, Y.H. ; Chi, C.C. ; Lee, Y.J. ; Chang-Liao, K.S. ; Kuan, C.H.
Author_Institution :
Electron. Eng. Dept., Nat. Chiao Tung Univ., Hsinchu, Taiwan
fDate :
Oct. 29 2012-Nov. 1 2012
Abstract :
Continuously down-scaling the operation voltage, saving energy, and maintaining high performance are the major challenge for CMOS device. Small 0.95~1.4 nm equivalent-oxide thickness (EOT) and 1.4~2.5X better mobility than universal SiO2/Si data are achieved in metal-gate/high-κ/Ge CMOS at 1 MV/cm effective field (Eeff). These excellent performances were achieved by using interface engineering and novel process, to overcome the poor high-κ/Ge interface reaction, low source-drain dopant activation, and n+/p ohmic contact. The all-Ge CMOS with measured higher electron and hole mobility has irreplaceable merits of much simpler process, lower cost, and potentially higher yield than the InGaAs-nMOS/Ge-pMOS platform for IC manufacture.
Keywords :
CMOS integrated circuits; ohmic contacts; CMOS device; EOT; advanced metal gate; equivalent oxide thickness; high field mobility; hole mobility; interface engineering; ohmic contact; operation voltage; source drain dopant activation; CMOS integrated circuits; Logic gates; MOSFET circuits; Silicon; Substrates; Transistors;
Conference_Titel :
Solid-State and Integrated Circuit Technology (ICSICT), 2012 IEEE 11th International Conference on
Conference_Location :
Xi´an
Print_ISBN :
978-1-4673-2474-8
DOI :
10.1109/ICSICT.2012.6467936
