Title :
A new leakage mechanism of Co salicide and optimized process conditions [for CMOS]
Author :
Goto, Ken-Ichi ; Fushida, Atsuo ; Watanabe, Junichi ; Sukegawa, Takae ; Tada, Yoko ; Nakamura, Tomoji ; Yamazaki, Tatsuya ; Sugii, Toshihiro
Author_Institution :
Fujitsu Labs. Ltd., Atsugi, Japan
fDate :
1/1/1999 12:00:00 AM
Abstract :
We have clarified a new leakage mechanism in Co salicide process for the ultrashallow junctions of 0.1-μm CMOS devices and revealed the optimum Co salicide process conditions for minimizing the leakage current. We found that leakage currents flow from many localized points that are randomly distributed in the function area. We successfully verified our localized leakage model via Monte Carlo simulation. We identified abnormal CoSix spikes under the Co silicide film, as being the origin of the localized leakage current. These CoSix spikes grow rapidly only during annealing between 400 and 450°C for 30 s when Co2Si phase is formed. These spikes never grow during annealing at over 500°C, and decrease with high temperature annealing. A minimum leakage current results by optimized annealing at between 800 and 850°C for 30 s. This is because a trade-off exists between reducing the CoSix spikes and preventing the Co atom diffusion from Co silicide film to Si substrate, which begins at annealing above 900°C
Keywords :
CMOS integrated circuits; Monte Carlo methods; annealing; cobalt compounds; integrated circuit metallisation; leakage currents; 0.1 micron; 30 s; 400 to 450 degC; 800 to 850 degC; CoSi2; Monte Carlo simulation; annealing; atom diffusion; leakage current; leakage mechanism; localized leakage model; localized points; optimized process conditions; salicide process; ultrashallow junctions; Annealing; CMOS process; Conductivity; Contact resistance; Leakage current; Semiconductor device modeling; Semiconductor films; Silicides; Temperature; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
