Title :
Electron Transport in Strained-Silicon Directly on Insulator Ultrathin-Body n-MOSFETs With Body Thickness Ranging From 2 to 25 nm
Author :
Gomez, Leonardo ; Åberg, I. ; Hoyt, J.L.
Author_Institution :
Microsystems Technol. Lab., MIT, Cambridge, MA
fDate :
4/1/2007 12:00:00 AM
Abstract :
The electron effective mobility in ultrathin-body n-channel metal-oxide-semiconductor field-effect transistors fabricated on Ge-free 30% strained-Si directly on insulator (SSDOI) is mapped as the body thickness is scaled. Effective mobility and device body thickness were extracted using current-voltage and gate-to-channel capacitance-voltage measurements as well as cross-sectional transmission electron microscopy. Devices with body thicknesses ranging from 2 to 25 nm are studied. Significant mobility enhancements ( ~1.8x) compared to unstrained SOI are observed for 30% SSDOI with body thicknesses of above 3.5 nm. The mobility exhibits a sharp drop as the body thickness is scaled below 3.5 nm
Keywords :
MOSFET; electron mobility; nanoelectronics; silicon-on-insulator; transmission electron microscopy; 2 to 25 nm; Si; body thickness; capacitance-voltage measurements; cross-sectional transmission electron microscopy; current-voltage measurement; electron effective mobility; electron transport; mobility enhancements; strained-silicon directly on insulator; ultrathin-body nMOSFET; Capacitance measurement; Capacitance-voltage characteristics; Current measurement; Electron mobility; FETs; Insulation; MOSFET circuits; Metal-insulator structures; Silicon; Thickness measurement; Mobility; silicon-on-insulator (SOI); strained-Si; strained-Si directly on insulator (SSDOI); ultrathin-body (UTB) MOSFET;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2007.891795
