Title :
Reduction of Threshold Voltage by Diffusion Control Technique in p-MISFETs Using Poly-Si/TiN/HfSiON Gate Stacks
Author :
Kawahara, Takaaki ; Nishida, Yukio ; Sakashita, Shinsuke ; Mizutani, Masaharu ; Inoue, Masao ; Yamanari, Shinichi ; Higashi, Masahiko ; Hayashi, Takashi ; Murata, Naofumi ; Honda, Kazuhito ; Yugami, Jiro ; Yoshimura, Hidefumi ; Yoneda, Masahiro
Author_Institution :
Renesas Technol. Corp., Itami
Abstract :
The effects of the diffusion control technique by inserting physical vapor deposition (PVD)-TiN film between poly-Si and CVD-TiN films on the properties of p-MISFETs using poly-Si/TiN/HfSiON gate stacks have been studied. This insertion was effective in suppressing the diffusion of Si from poly-Si to HfSiON and was able to reduce the Vth value by 0.12 V while keeping the equivalent oxide thickness and S value constant, when the thicknesses of the PVD and CVD-TiN films were 10 and 5 nm, respectively. Although too much ion implantation of fluorine into the substrate deteriorates S value and ION, it was verified that this diffusion control technique, in conjunction with a moderate substrate fluorine implantation, provided a reduction of Vth in pMIS without a deterioration of ION.
Keywords :
MISFET; diffusion; hafnium compounds; silicon; silicon compounds; titanium compounds; vapour deposition; diffusion control; p-MISFET; physical vapor deposition; poly-Si/TiN/HfSiON gate stacks; threshold voltage reduction; Atherosclerosis; Chemical vapor deposition; Dielectric substrates; High K dielectric materials; High-K gate dielectrics; Ion implantation; Semiconductor films; Threshold voltage; Tin; Voltage control; CVD; fluorine implantation; high- $k$; metal gate; p-MISFETs; physical vapor deposition (PVD); subthreshold swing; threshold voltage; titanium nitride;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.905434
