Title :
Integration Friendly Dual Metal Gate Technology Using Dual Thickness Metal Inserted Poly-Si Stacks (DT-MIPS)
Author :
Jung, Hyung-Suk ; Han, Sung Kee ; Lim, Hajin ; Choi, Yun Ki ; Lee, Cheol-kyu ; Lee, Mong Sub ; You, Young-sub ; Chung, Youngsu ; Park, Jong-Bong ; Lee, Eun Ha ; Baik, Hion Suck ; Lee, Jong-Ho ; Lee, Nae-In ; Kang, Ho-Kyu
Author_Institution :
Samsung Electron. Co. Ltd., Yongin
Abstract :
We have successfully developed integration friendly dual metal gate process utilizing a dual thickness metal inserted poly-Si stacks (DT-MIPS) structure; poly-Si/TaN/HfON stacks for nMOS and poly-Si/capping metal layer(c-ML)/AlOx/TaN/HfON stacks for pMOS. First, in spite of different metal thickness on n/pMOS, a high-selectivity gate etch process can completely remove metal and HfON layers from the S/D active regions with negligible Si recess in both n/pMOS. Consequently, in both short and long channel devices, n/pMOS Vth values of ~plusmn0.35 V are obtained without counter channel doping. Moreover, excellent drive currents (620/250 muA/um for n/pMOS at Ioff=20 pA/um and Vdd=1.2 V) are obtained without using any mobility enhancement technique. Finally, we confirm that the estimated operation voltages for 10 years lifetime for both nMOS PBTI and pMOS NBTI are well beyond the 1.2 V.
Keywords :
MIS devices; elemental semiconductors; hafnium compounds; silicon compounds; tantalum compounds; HfON layers; Si-TaN-HfON; dual thickness metal inserted poly-silicon stacks; high-selectivity gate etch process; integration friendly dual metal gate technology; nMOS PBTI; negative bias temperature instability; pMOS NBTI; positive bias temperature instability; CMOS process; Counting circuits; Doping; Etching; Fabrication; Large scale integration; Life estimation; Lifetime estimation; MOS devices; Research and development;
Conference_Titel :
VLSI Technology, 2007 IEEE Symposium on
Conference_Location :
Kyoto
Print_ISBN :
978-4-900784-03-1
DOI :
10.1109/VLSIT.2007.4339690
