Title :
Dual High-k Gate Dielectric Technology Using Selective AlOx Etch (SAE) Process with Nitrogen and Fluorine Incorporation
Author :
Jung, Hyung-Suk ; Han, Sung Kee ; Lim, Hajin ; Kim, Yun-Seok ; Kim, Min Joo ; Yu, Mi Young ; Lee, Cheol-kyu ; Lee, Mong Sub ; You, Young-sub ; Chung, Youngsu ; Kim, Seulgi ; Baik, Hion Suck ; Lee, Jong-Ho ; Lee, Nae-In ; Kang, Ho-Kyu
Author_Institution :
Syst. LSI Div., Samsung Electron. Co., Kyunggi-Do
Abstract :
We propose a novel Vth, control method for HfSiON (or HfO2) with poly-Si and metal inserted poly-Si stacks (MIPS) gates. By using a selective AlOx etch (SAE) process, we successfully integrate dual high-k gate oxide scheme; HfSiO/poly-Si stack for nMOS and HfSiO/AlOx/poly-Si stack for pMOS. Therefore, symmetrical Vth values of 0.43V(nMOS)/-0.44V (pMOS) have been obtained in poly-Si gate. For MIPS gate, we perform the SAE process with impurity incorporation at the channel region, such as N 2 for nMOS and F for pMOS. Consequently, nMOS Vth of 0.35V and pMOS Vth of -0.45V are obtained without counter channel doping. Moreover, we find out that impurity incorporation at the channel also improves mobility and reliability characteristics. Finally, by using the SAE process with impurity incorporation, maximum operating voltages above 1.0V are obtained by an extrapolated 10 years lifetime
Keywords :
aluminium compounds; carrier mobility; etching; fluorine; hafnium compounds; high-k dielectric thin films; nitrogen; semiconductor doping; silicon compounds; voltage control; -0.44 V; -0.45 V; 0.35 V; 0.44 V; F; HfSiO-AlOx-Si; HfSiON; MIPS gate; MIPS gates; N2; SAE process; dual high-k gate dielectric; impurity incorporation; mobility characteristic; nMOS; pMOS; reliability characteristic; selective etching; semiconductor stack; Counting circuits; Doping; Etching; Hafnium oxide; High K dielectric materials; High-K gate dielectrics; Impurities; MOS devices; Nitrogen; Voltage;
Conference_Titel :
VLSI Technology, 2006. Digest of Technical Papers. 2006 Symposium on
Conference_Location :
Honolulu, HI
Print_ISBN :
1-4244-0005-8
DOI :
10.1109/VLSIT.2006.1705267
