Title :
Demonstration of Asymmetric Gate Oxide Thickness 4-Terminal FinFETs
Author :
Masahara, M. ; Surdeanu, R. ; Witters, L. ; Doornbos, G. ; Nguyen, V.H. ; Van den bosch, G. ; Vrancken, C. ; Devriendt, K. ; Neuilly, F. ; Kunnen, E. ; Jurczak, M. ; Biesemans, S.
Author_Institution :
Nat. Inst. of AIST, IMEC, Leuven
Abstract :
Flexibly-Vth-controllable four-terminal-FinFETs (4T-FinFETs) (Fried, et al., 2003) have great potential to prevent catastrophic increases in static power consumption. Previously-reported 4T-FinFETs had symmetrically thin gate oxides on both channels, unfortunately resulting in large S-slope due to the negative effect of the high second gate (G2) controllability (Lim, et al., 1983). To attain a good S-slope even after DG separation, the asymmetric gate oxide thickness (Tox) (thin drive-gate oxide and slightly thick V th-control-gate oxide) have been suggested. (Wong, et al., 1998) This paper demonstrates, for the first time, asymmetric-Tox 4T-FinFETs with HfO2 (EOT=1.4nm) for one side and HfO 2+thick SiO2 (EOT=6.4-9.4nm) for the other side fabricated by using a novel ion-bombardment-enhanced etching (IBEE) process
Keywords :
MOSFET; 1.4 nm; 6.4 to 9.4 nm; FinFET; HfO2; S-slope; asymmetric gate oxide thickness; ion-bombardment-enhanced etching; static power consumption; Argon; Conference proceedings; Controllability; Energy consumption; Etching; Europe; Fabrication; FinFETs; Hafnium oxide; Implants;
Conference_Titel :
International SOI Conference, 2006 IEEE
Conference_Location :
Niagara Falls, NY
Print_ISBN :
1-4244-0289-1
Electronic_ISBN :
1078-621X
DOI :
10.1109/SOI.2006.284489
