Title :
Electrical and physical characterization of remote plasma oxidized HfO2 gate dielectrics
Author :
Yamamoto, Kazuhiko ; Deweerd, Wim ; Aoulaiche, Marc ; Houssa, Michel ; De Gendt, Stefan ; Horii, Sadayoshi ; Asai, Masayuki ; Sano, Atsushi ; Hayashi, Shigenori ; Niwa, Masaaki
Author_Institution :
IMEC, Leuven, Belgium
fDate :
5/1/2006 12:00:00 AM
Abstract :
Bi-layer gate stacks consisting of a HfO2 and an interfacial layer are fabricated by remote plasma oxidation (RPO) of Hf metal deposited on an Si substrate. Hf metal is fully oxidized by the RPO even at a temperature as low as 400°C due to radical oxygens, leading to an improvement in the quality of HfO2 with less impact to the interfacial layer growth. An insufficient oxidation leads to a deterioration of mobility with increasing interface traps and positive bias temperature instability, which is likely caused by the oxygen vacancies acting as traps induced by the remaining Hf metal. The SiO2-like interface improves the mobility with reduced interface states. Full oxidation and the controlled SiO2-like interface demonstrate RPO as a promising way for gate-stack optimization.
Keywords :
dielectric materials; hafnium compounds; interface states; oxidation; plasma materials processing; silicon compounds; CMOSFET; HfO2; MIS devices; bi-layer gate stacks; gate dielectrics; interface traps; interfacial layer; metal-insulator-reliability; positive bias temperature instability; radical oxygen; reduced interface states; remote plasma oxidation; semiconductor-insulator interfaces; Atherosclerosis; Chemical vapor deposition; Dielectric substrates; Hafnium oxide; High-K gate dielectrics; Impurities; MOCVD; Microelectronics; Oxidation; Plasma temperature; CMOSFETs; hafnium; metal–insulator–semiconductor (MIS) devices; oxidation; reliability; semiconductor–insulator interfaces;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2006.872090
