Title :
Schottky-barrier source/drain MOSFETs on ultrathin SOI body with a tungsten metallic midgap gate
Author :
Larrieu, Guilhem ; Dubois, Emmanuel
Author_Institution :
IEMN/ISEN UMR CNRS, Villeneuve d´´Ascq, France
Abstract :
This letter presents a simple low-temperature process to fabricate Schottky-barrier (SB) MOSFETs that integrates a midgap metallic gate (tungsten). The device architecture is based on a thin (10 nm) and lowly doped silicon-on-insulator film that provides a threshold voltage of -0.3 V independent on the depletion charge and therefore not sensitive to variations in film thickness and doping. A gate encapsulation technique using an SiO2-like hydrogen silsesquioxane capping layer features 15-nm-wide spacers and ensures the compatibility with the PtSi self-aligned silicide process. Long-channel devices present an ideal subthreshold swing of 60 mV/dec, over six decades of Ion/Ioff without any sign of sublinear upward bending of the IDS--VDS curves at low drain voltage.
Keywords :
MOSFET; Schottky barriers; silicon compounds; silicon-on-insulator; tungsten; -0.3 V; 10 nm; 15 nm; MOSFET fabrication; PtSi self-aligned silicide process; Schottky-barrier drain MOSFET; Schottky-barrier source MOSFET; SiO2; drain voltage; film doping; film thickness; gate encapsulation; hydrogen silsesquioxane capping layer; long-channel devices; lowly doped silicon-on-insulator film; metallic midgap gate; threshold voltage; ultrathin SOI body; Doping; Encapsulation; Hydrogen; Low voltage; MOSFETs; Semiconductor films; Silicides; Silicon on insulator technology; Threshold voltage; Tungsten; 65; MOSFET; Metal gate; SB; SOI; Schottky-barrier; silicon-on-insulator;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.838053
