Title :
Improved Ge Surface Passivation With Ultrathin SiOX Enabling High-Mobility Surface Channel pMOSFETs Featuring a HfSiO/WN Gate Stack
Author :
Joshi, Sachin ; Krug, Cristiano ; Heh, Dawei ; Na, Hoon Joo ; Harris, Harlan R. ; Oh, Jung Woo ; Kirsch, Paul D. ; Majhi, Prashant ; Lee, Byoung Hun ; Tseng, Hsing-Huang ; Jammy, Raj ; Lee, Jack C. ; Banerjee, Sanjay K.
Author_Institution :
Microelectron. Res. Center, Univ. of Texas, Austin, TX
fDate :
4/1/2007 12:00:00 AM
Abstract :
To realize high-mobility surface channel pMOSFETs on Ge, a 1.6-nm-thick SiOX passivation layer between the bulk Ge substrate and HfSiO gate dielectric was introduced. This approach provides a simple alternative to epitaxial Si deposition followed by selective oxidation and leads to one of the highest peak hole mobilities reported for unstrained surface channel pMOSFETs on Ge: 332 cm2 middotV-1middots-1 at 0.05 MV/cm-a 2times enhancement over the universal Si/SiO2 mobility. The devices show well-behaved output and transfer characteristics, an equivalent oxide thickness of 1.85 nm and an ION/IOFF ratio of 3times103 without detectable fast transient charging. The high hole mobility of these devices is attributed to adequate passivation of the Ge surface
Keywords :
MOSFET; germanium; hafnium compounds; high-k dielectric thin films; hole mobility; passivation; silicon compounds; tungsten compounds; 1.6 nm; 1.85 nm; Ge-SiO-HfSiO-WN; epitaxial deposition; high hole mobility; high-mobility surface channel; hole mobilities; improved surface passivation; mobility enhancement; selective oxidation; unstrained surface channel MOSFET; Dielectric substrates; Dry etching; Jamming; Lifting equipment; MOS devices; MOSFETs; Microelectronics; Oxidation; Passivation; Surface charging; Germanium; high mobility; high- $kappa$; metal gate; pMOSFET; surface passivation;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.893274
