Title :
Mobility enhancement by integration of TmSiO IL in 0.65nm EOT high-k/metal gate MOSFETs
Author :
Litta, Eugenio Dentoni ; Hellstrom, Per-Erik ; Ostling, Mikael
Author_Institution :
Sch. of Inf. & Commun. Technol., KTH R. Inst. of Technol., Kista, Sweden
Abstract :
Thulium silicate has been demonstrated as a possible replacement of chemical oxide interfacial layers for extended scalability of high-k/metal gate MOSFETs. In this work, thulium silicate was integrated in a scaled HfO2/TiN gate-last CMOS process, achieving an EOT of 0.65 nm and well-behaved and reproducible IV and CV characteristics with almost symmetric threshold voltages, low subthreshold slope and low hysteresis. Comparison with reference devices employing chemical oxide interfacial layers shows improvement in terms of leakage current density and electron and hole mobility. Specifically, channel mobility is enhanced by 20% in N-MOSFETs and by 15% in P-MOSFETs at an inversion charge density of 1013cm-2, yielding values of 180 and 75 cm2/Vs at EOT = 0.65 and 0.8 nm respectively.
Keywords :
MOSFET; current density; electron mobility; hafnium compounds; high-k dielectric thin films; hole mobility; leakage currents; silicon compounds; thulium compounds; titanium compounds; CMOS process; EOT high-k; HfO2-TiN; N-MOSFET; P-MOSFET; TmSiO; channel mobility; chemical oxide interfacial layers; electron mobility; hole mobility; leakage current density; metal gate MOSFET; mobility enhancement; size 0.65 nm; size 0.8 nm; threshold voltages; Chemicals; Hafnium compounds; High K dielectric materials; Logic gates; MOSFET; Silicon;
Conference_Titel :
Solid-State Device Research Conference (ESSDERC), 2013 Proceedings of the European
Conference_Location :
Bucharest
DOI :
10.1109/ESSDERC.2013.6818842
