Title :
A practical Si nanowire technology with nanowire-on-insulator structure for beyond 10nm logic technologies
Author :
Sung-Gi Hur ; Jung-Gil Yang ; Sang-Su Kim ; Dong-Kyu Lee ; Taehyun An ; Kab-Jin Nam ; Seong-Je Kim ; Zhenhua Wu ; Wonsok Lee ; Uihui Kwon ; Keun-Ho Lee ; Youngkwan Park ; Wouns Yang ; Jungdal Choi ; Ho-Kyu Kang ; EunSung Jung
Author_Institution :
Process Dev. Team, Samsung Electron. Co., Hwasung, South Korea
Abstract :
This paper reports the design and fabrication of a practical Si nanowire (NW) transistor for beyond 10 nm logic devices application. The dependency of the DC and AC performances of Si NW MOSFETs on NW diameter (DNW) and gate oxide thickness has been investigated. A Si NW device with the scaled DNW of 9 nm and thin equivalent oxide thickness (EOT) of 0.9 nm improved both on-current and electrostatic characteristics. Finally, a Nanowire-On-Insulator (NOI) structure has been proposed to enhance the AC performance of a multiple-stacked NWs structure, which improves DC performance but has the issue of high parasitic capacitance. As a result, the simulated AC performance of a triple-NOI structure was improved by around 20% compared to conventional triple NW structure.
Keywords :
MOSFET; elemental semiconductors; logic gates; nanowires; silicon; silicon-on-insulator; NW diameter; Si; Si NW MOSFET; electrostatic characteristic; gate oxide thickness; high parasitic capacitance; logic devices; logic technology; nanowire-on-insulator structure; silicon nanowire technology; size 0.9 nm; size 9 nm; thin equivalent oxide thickness; Capacitance; FinFETs; Logic gates; Nanostructures; Performance evaluation; Silicon; Silicon germanium;
Conference_Titel :
Electron Devices Meeting (IEDM), 2013 IEEE International
Conference_Location :
Washington, DC
DOI :
10.1109/IEDM.2013.6724698
