Title :
Manufacturability of 20-nm ultrathin body fully depleted SOI devices with FUSI metal gates
Author :
Krivokapic, Zoran ; Maszara, Witold P. ; Lin, Ming-Ren
Author_Institution :
AMD, Sunnyvale, CA, USA
Abstract :
Ultrathin body (UTB) fully depleted silicon-on-insulator (FDSOI) devices show great performance due to undoped channels and excellent electrostatic control. Very high drive currents and good off-state leakage, ideal subthreshold slope, and small drain-induced barrier lowering (DIBL) have been reported with devices as short as 20 nm. The ultrathin channel enables high device performance, but it imposes a new set of problems. The control of the silicon thickness has become the dominant source of device variations. Selective epitaxial growth has become a necessity to achieve high performance and reliable contacts to UTB FDSOI devices. This work discusses silicon thickness control, selective epitaxial growth, and the mid-gap gate module needed for fully depleted devices. Very good control of short channel effect is shown and drive current fluctuations are discussed.
Keywords :
elemental semiconductors; epitaxial growth; leakage currents; semiconductor device manufacture; semiconductor epitaxial layers; semiconductor growth; silicon-on-insulator; 20 nm; device performance; drain-induced barrier lowering; drive current fluctuations; ed for fully depleted; electrostatic control; fully silicided metal gates; manufacturability; mid-gap gate module; off-state leakage; selective epitaxial growth; short channel effect; silicon thickness control; subthreshold slope; ultrathin body fully depleted SOI devices; ultrathin channel; undoped channels; Dielectrics; Drives; Electrostatics; Epitaxial growth; Fluctuations; Immune system; Manufacturing; Silicidation; Silicon on insulator technology; Thickness control;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2004.841819
