Title :
A novel CVD-SiBCN Low-K spacer technology for high-speed applications
Author :
Ko, C.H. ; Kuan, T.M. ; Zhang, Kangzhan ; Tsai, Gino ; Seutter, Sean M. ; Wu, C.H. ; Wang, T.J. ; Ye, C.N. ; Chen, H.W. ; Ge, C.H. ; Wu, K.H. ; Lee, W.C.
Author_Institution :
Taiwan Semicond. Manuf. Co., Ltd., Hsinchu
Abstract :
State-of-the-art low-K spacer technology featuring novel CVD-SiBCN material is demonstrated for the first time. A significant 20% CMOS ring speed enhancement is demonstrated with SiBCN (K=5.2) spacer, compared to Si3N4 (K=7.5) spacer, due to reduced fringing capacitance and enhanced strain effects by spacer-PSS and CESL techniques. Electron mobility is improved by 6% for long channel NMOS transistor and gm,max is increased by 11% for short 35 nm physical gate length NMOS using a preferable spacer structure that is comprised of a low stress SiBCN spacer on thin SiO2 liner and a final 600degC rapid thermal post-anneal. Superior GIDL and better gate leakage is obtained because low permittivity SiBCN alleviates gate-fringing field effects (GF effects), and device reliability is not adversely impacted by this new process.
Keywords :
CMOS integrated circuits; MOSFET; boron compounds; carbon compounds; chemical vapour deposition; silicon compounds; CMOS ring speed enhancement; CVD; NMOS transistor; SiBCN; device reliability; electron mobility; fringing capacitance; gate leakage; low-K spacer technology; rapid thermal postanneal; spacer-CESL; spacer-PSS; strain effects; temperature 600 C; CMOS technology; Capacitance; Capacitive sensors; Electron mobility; Gate leakage; MOS devices; MOSFETs; Rapid thermal processing; Space technology; Thermal stresses;
Conference_Titel :
VLSI Technology, 2008 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4244-1802-2
Electronic_ISBN :
978-1-4244-1803-9
DOI :
10.1109/VLSIT.2008.4588581
