Multiple Stress Memorization In Advanced SOI CMOS Technologies

Author

Wei, A. ; Wiatr, M. ; Mowry, A. ; Gehring, A. ; Boschke, R. ; Scott, C. ; Hoentschel, J. ; Duenkel, S. ; Gerhardt, M. ; Feudel, T. ; Lenski, M. ; Wirbeleit, F. ; Otterbach, R. ; Callahan, R. ; Koerner, G. ; Krumm, N. ; Greenlaw, D. ; Raab, M. ; Horstmann,

Author_Institution

AMD Saxony LLC & Co. KG, Dresden

fYear

2007

fDate

12-14 June 2007

Firstpage

216

Lastpage

217

Abstract

Two distinct stress memorization phenomena in advanced SOI CMOS are reported in this work. Both require a capping layer and anneal, but can be categorized as techniques 1) requiring an amorphized source/drain region and low temperature anneal, and 2) requiring a high temperature anneal, independent of the crystalline state of the Si. Both improve NMOS drive current, and the resulting improvements are additive to >27% NMOS IDSAT improvement. The first phenomenon is previously unreported. It has been identified to be localized in the source/drains, and yields more improvement with multiple offset implantation prior to capping and annealing.

Keywords

CMOS integrated circuits; annealing; silicon-on-insulator; NMOS drive current; advanced SOI CMOS technologies; annealing; capping; multiple stress memorization; CMOS technology; Paper technology; Stress; Very large scale integration;

fLanguage

English

Publisher

ieee

Conference_Titel

VLSI Technology, 2007 IEEE Symposium on

Conference_Location

Kyoto

Print_ISBN

978-4-900784-03-1

Type

conf

DOI

10.1109/VLSIT.2007.4339698

Filename

4339698