Title :
Complementary sidewall-spacer-diffused ultrashallow SD extension process for damascene independently-double-gated SOI CMOS
Author :
Parke, S. ; Goldston, M. ; Hackler, D. ; DeGregorio, K. ; Hayhurst, R. ; Horvath, A. ; Parsa, S.
Author_Institution :
American Semicond. Inc., Boise, ID, USA
Abstract :
We introduce a new SOI CMOS device, FlexfetTM, that utilizes a gate trench etched through thick implanted SD regions to self-align a hyper retrograde implanted bottom gate with a metal top gate, and create an ultra-thin channel region. Rapid thermal diffusion from complementary PSG/BSG sidewall spacers was used to achieve 15 nm USJ SDEs that connect to deeper implanted SD junctions. Effectively raised SDs are achieved without using selective epi. The sidewall spacers also narrow the trench opening below the minimum feature size, and are used to self-align the implanted bottom gate and the high-K/metal top gate.
Keywords :
MOSFET; elemental semiconductors; etching; silicon-on-insulator; 15 nm; FlexfetTM NMOS transistor; SOI CMOS device; Si; complementary metal-oxide semiconductor; complementary sidewall spacer diffused ultrashallow source-drain extension; etching; gate trench; hyper retrograde implanted bottom gate; metal top gate; rapid thermal diffusion; silicon-on-insulator; ultrathin channel region; Annealing; CMOS process; Etching; Germanium silicon alloys; Lamps; Optical device fabrication; Plasma applications; Plasma devices; Silicon germanium; Voltage;
Conference_Titel :
SOI Conference, 2004. Proceedings. 2004 IEEE International
Print_ISBN :
0-7803-8497-0
DOI :
10.1109/SOI.2004.1391575
