Title :
A novel low resistance gate fill for extreme gate length scaling at 20nm and beyond for gate-last high-k/metal gate CMOS technology
Author :
Kwon, U. ; Wong, K. ; Krishnan, S.A. ; Econimikos, L. ; Zhang, X. ; Ortolland, C. ; Thanh, L.D. ; Laloe, J. -B ; Huang, J.Y. ; Edge, L.F. ; Wang, H.M. ; Gribelyuk, M.A. ; Rath, D.L. ; Bingert, R. ; Liu, Y. ; Bao, R. ; Kim, I. ; Ramachandran, R. ; Lai, W.L
Author_Institution :
Microelectron. Div., IBM, Hopewell Junction, NY, USA
Abstract :
Replacement metal gate (RMG) process requires gate fill with low resistance materials on top of work function tuning metals. Conventional titanium (Ti)-aluminum (Al) based RMG metal fill scheme for low resistance gate formation becomes challenging with further gate length scaling for 20nm node and beyond. In this work, we have demonstrated competitive low resistance gate formation at smaller than 25nm Lgate using a novel cobalt (Co)-aluminum based metal fill scheme for extreme gate length scaling. Challenges in CMP for the implementation as well as assessment on resistance and device characteristics of this new low resistance fill scheme are also discussed.
Keywords :
CMOS integrated circuits; RMG process; extreme gate length scaling; high-k/metal gate CMOS technology; low resistance gate fill; metal fill; replacement metal gate; Corrosion; Gate leakage; Logic gates; Metals; Resistance; USA Councils; Very large scale integration;
Conference_Titel :
VLSI Technology (VLSIT), 2012 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
978-1-4673-0846-5
Electronic_ISBN :
0743-1562
DOI :
10.1109/VLSIT.2012.6242445
