Process Integration Issues with Spike, Flash and Laser Anneal Implementation for 90 and 65 NM Technologies

Author

Feudel, Th. ; Horstmann, M. ; Herrmann, L. ; Herden, M. ; Gerhardt, M. ; Greenlaw, D. ; Fisher, P. ; Kluth, J.

Author_Institution

AMD Saxony LLC & Co., Dresden

fYear

2006

fDate

10-13 Oct. 2006

Firstpage

73

Lastpage

78

Abstract

With the need to reduce vertical and lateral device dimensions, submelt laser and flash anneal either with or without prior spike rapid thermal anneal (sRTA) has recently attracted attention. It combines improved active area activation with reduced gate poly depletion for a process that is essentially free of additional diffusion. This paper will focus on process integration issues during implementation into 90 and 65 nm SOI logic technologies: Transistor parameter fluctuation and pattern effects, power density limitations and the impact on the reliability of ultra-thin gate oxides, compatibility with new materials such as SiGe, transistor scaling and performance enhancement

Keywords

CMOS logic circuits; laser beam annealing; nanotechnology; rapid thermal annealing; silicon-on-insulator; 65 nm; 90 nm; SOI logic technologies; Si; active area activation; flash anneal; laser anneal; pattern effects; power density limitations; process integration; reduced gate poly depletion; spike rapid thermal anneal; submelt laser; transistor parameter fluctuation; ultra-thin gate oxide reliability; Fluctuations; Gate leakage; Germanium silicon alloys; Lamps; MOSFETs; Rapid thermal annealing; Silicon germanium; Stress; Temperature; Transistors;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Thermal Processing of Semiconductors, 2006. RTP '06. 14th IEEE International Conference on

Conference_Location

Kyoto

Print_ISBN

1-4244-0648-X

Electronic_ISBN

1-4244-0649-8

Type

conf

DOI

10.1109/RTP.2006.367984

Filename

4223111