Title :
A 100 nm CMOS technology with "sidewall-notched" 40 nm transistors and SiC-capped Cu/VLK interconnects for high performance microprocessor applications
Author :
Nakai, S. ; Takao, Y. ; Otsuka, S. ; Sugiyama, K. ; Ohta, H. ; Yamanoue, A. ; Iriyama, Y. ; Nanjyo, R. ; Sekino, S. ; Nagai, H. ; Naitoh, K. ; Nakamura, R. ; Sambonsugi, Y. ; Tagawa, Y. ; Horiguchi, N. ; Yamamoto, T. ; Kojima, M. ; Satoh, S. ; Sugatani, S
Author_Institution :
Fujitsu Labs. Ltd., Tokyo, Japan
Abstract :
A 40 nm CMOS transistor, an ultra high density 6T SRAM cell, and 10-level Cu interconnects and very-low-k (VLK) dielectrics for high performance microprocessor applications are presented. Key process features are the following: (1) High-NA 193 nm photolithography with phase shift mask and optical proximity correction (OPC) allows 40 nm gate length and the smallest 6T SRAM cell (<1 /spl mu/m/sup 2/). (2) A unique transistor feature which is referred to as "sidewall-notched gate" enables an optimal pocket implant placement and suppresses variations of the notch width much better than poly-notched gate structure. (3) 1.1 nm nitrided oxide (1.9 nm inversion T/sub ox/) is used to achieve high drive current, and the thermal budget is reduced to suppress the boron penetration. (4) SiC-capped Cu/SiLK structure in 0.28 /spl mu/m pitch metal 1-4 layers realizes k/sub eff/ of 3.0.
Keywords :
CMOS integrated circuits; copper; dielectric thin films; doping profiles; integrated circuit interconnections; integrated circuit metallisation; ion implantation; microprocessor chips; permittivity; phase shifting masks; proximity effect (lithography); silicon compounds; ultraviolet lithography; wide band gap semiconductors; 0.28 micron; 1.1 nm; 1.9 nm; 100 nm; 193 nm; 40 nm; 6T SRAM cell size; CMOS technology; CMOS transistor; OPC; SiC-Cu; SiC-capped Cu/SiLK structure; SiC-capped Cu/very-low-k interconnects; SiON; UV lithography; VLK dielectrics; boron penetration suppression; drive current; gate length; high-NA photolithography; metal layers; microprocessor applications; nitrided oxide; notch width; optical proximity correction; optimal pocket implant placement; phase shift mask; poly-notched gate structure; process features; sidewall-notched gate transistor feature; sidewall-notched transistors; ten-level Cu interconnects; thermal budget; ultra high density 6T SRAM cell; very-low-k dielectrics; Annealing; Boron; CMOS technology; Dielectrics; Dry etching; Lithography; MOS devices; Manufacturing; Random access memory; Threshold voltage;
Conference_Titel :
VLSI Technology, 2002. Digest of Technical Papers. 2002 Symposium on
Conference_Location :
Honolulu, HI, USA
Print_ISBN :
0-7803-7312-X
DOI :
10.1109/VLSIT.2002.1015390
