Title :
High-Field Transport Investigation for 25-nm MOSFETs With 0.64-nm EOT: Intrinsic Performance and Parasitic Effects
Author :
Trojman, Lionel ; Pantisano, Luigi ; Ragnarsson, Lars-?…ke
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. San Francisco de Quito, Quito, Ecuador
fDate :
7/1/2012 12:00:00 AM
Abstract :
Low- and high-field transports are investigated for HfO2-based MOSFETs with ultrathin equivalent oxide thickness (UTEOT) achieved by a remote interface layer (IL) scavenging method. A detailed comparison with a SiON reference demonstrates none of the detrimental effects from HfO2-related Coulomb nor phonon additional scattering on the high-field velocity. Increased surface roughness may reduce the high-field velocity by 20% for the device with the thinnest IL. This is explained by an increase of the backscattering which reduces the ballistic efficiency for the shortest devices . However, the on-state current for UTEOT devices has the best performance at a given high-lateral-field velocity. Therefore, EOT scaling remains a valid tool for ION-performance improvement for CMOS scaling also with new architectures and substrates.
Keywords :
CMOS integrated circuits; MOSFET; hafnium compounds; surface roughness; CMOS scaling; EOT scaling; HfO2; UTEOT device; ballistic efficiency; hafnium oxide-related Coulomb; hafnium-based MOSFET; high-field transport investigation; high-lateral-field velocity; intrinsic performance; low-field transport; on-state current; parasitic effect; phonon additional scattering; remote IL scavenging method; remote interface layer scavenging method; size 25 nm; surface roughness; ultrathin equivalent oxide thickness; Backscatter; Hafnium compounds; Logic gates; MOSFETs; Performance evaluation; Scattering; Temperature measurement; $hbox{HfO}_{2}$; Backscattering; cryogenic temperature; high-$kappa$/metal-gate MOSFET; high-field transport; mobility; on-state current; quasi-ballistic; short-channel devices; ultrathin equivalent oxide thickness (UTEOT);
Journal_Title :
Electron Devices, IEEE Transactions on
Conference_Location :
5/3/2012 12:00:00 AM
DOI :
10.1109/TED.2012.2193402
