Title :
Elevated source/drain engineering with smooth surface morphology for ultrathin-SOI CMOS
Author :
Sugihara, K. ; Nakahata, T. ; Matsumoto, T. ; Maeda, S. ; Maegawa, S. ; Ota, K. ; Sayama, H. ; Oda, H. ; Eimori, T. ; Abe, Y. ; Ozeki, T. ; Inoue, Y.
Author_Institution :
Adv. Technol. R&D Center, Mitsubishi Electr. Corp., Hyogo, Japan
Abstract :
A novel selective epitaxial growth (SEG) technology which combines low-temperature UHV-CVD and low-damage sidewall etch-back with a Cl/sub 2/-plasma is experimentally demonstrated for elevated S/D ultra-thin SOI CMOS devices. It is found that the deviation of the parasitic S/D series resistance in elevated S/D sub-40-nm-thick SOI FETs can be nearly as low as that in bulk FETs because the excellent epi-Si surface morphology enables a uniform CoSi/sub 2/ film. Moreover, neither gate/drain bridging nor any other leakage phenomena are pronounced. These results mean that this SEG technology is promising for elevated S/D ultra-thin SOI CMOS devices for the 90-nm technology node and beyond.
Keywords :
CMOS integrated circuits; MOSFET; elemental semiconductors; plasma CVD; semiconductor epitaxial layers; semiconductor growth; silicon-on-insulator; surface morphology; 40 nm; 90 nm; Cl/sub 2/-plasma; CoSi/sub 2/; SOI FET; Si; UHV-CVD; elevated source-drain engineering; parasitic source-drain series resistance; selective epitaxial growth technology; smooth surface morphology; ultrathin-SOI CMOS devices; CMOS process; Degradation; Etching; FETs; Rough surfaces; Silicides; Surface morphology; Surface resistance; Surface roughness; Ultra large scale integration;
Conference_Titel :
Junction Technology, 2002. IWJT. Extended Abstracts of the Third International Workshop on
Conference_Location :
Tokyo, Japan
Print_ISBN :
4-89114-028-3
DOI :
10.1109/IWJT.2002.1225202
