Title :
Gatestacks for scalable high-performance FinFETs
Author :
Vellianitis, G. ; van Dal, M.J.H. ; Witters, L. ; Curatola, G. ; Doornbos, G. ; Collaert, N. ; Jonville, C. ; Torregiani, C. ; Lai, L.-S. ; Petty, J. ; Pawlak, B.J. ; Duffy, R. ; Demand, M. ; Beckx, S. ; Mertens, S. ; Delabie, A. ; Vandeweyer, T. ; Delvau
Author_Institution :
NXP-TSMC Res. Centre, Leuven
Abstract :
Excellent performance (995 muA/mum at Ioff=94 n A/mum and Vdd=lV) and short channel effect control are achieved for tall, narrow FinFETs without mobility enhancement. Near-ideal fin/gate profiles are achieved with standard 193 nm immersion lithography and dry etch. PVD TiN electrodes on Hf SiO dielectrics are shown to give improved NMOS performance over PEALD TiN whilst poorer conformality, for both dielectric and gate electrode, does not appear to impact scalability or performance. Excellent PMOS performance is achieved for both PEALD and PVD TiN. A new model for threshold voltage VT variability is shown to explain this dependence upon fin width and gate length.
Keywords :
MOSFET; etching; hafnium compounds; immersion lithography; plasma CVD; semiconductor device reliability; silicon compounds; titanium compounds; FinFET; HfSiO; TiN; dry etch; fin-gate profiles; immersion lithography; mobility enhancement; plasma ALD; short channel effect control; Atherosclerosis; Dielectrics; Dry etching; Electrodes; FinFETs; Hafnium; Lithography; MOS devices; Scalability; Tin;
Conference_Titel :
Electron Devices Meeting, 2007. IEDM 2007. IEEE International
Conference_Location :
Washington, DC
Print_ISBN :
978-1-4244-1507-6
Electronic_ISBN :
978-1-4244-1508-3
DOI :
10.1109/IEDM.2007.4419037
