Title :
Gate quality ultrathin (2.5 nm) PECVD deposited oxynitride and nitrided oxide dielectrics
Author :
Ibok, Effiong ; Ahmed, Khaled ; Hao, Ming-Yin ; Ogle, Bob ; Wortman, Jimmie J. ; Hauser, John R.
Author_Institution :
Adv. Micro Devices Inc., Sunnyvale, CA, USA
Abstract :
Ultrathin oxynitride using plasma assisted deposition was evaluated against thermal oxide and nitrided thermal oxide as an alternative direct tunneling gate dielectric to thermal oxide in the 2.5-nm regime. The oxynitride showed an enhanced high field effective mobility relative to the thermal oxide although the low field mobility was slightly depressed. The N/sub 2/O nitrided oxide showed an enhanced high field effective mobility with no degradation in low field mobility. The interface state density of the oxynitride was equivalent to that of the thermal and nitrided thermal oxides; a very welcome observation for this deposition chemistry and anneal conditions.
Keywords :
carrier mobility; dielectric thin films; interface states; nitridation; plasma CVD coatings; silicon compounds; tunnelling; PECVD; SiON; annealing; direct tunneling gate dielectric; field effective mobility; interface state density; nitrided thermal oxide; oxynitride; plasma assisted deposition; thermal oxide; ultrathin film; Annealing; Boron; Dielectric devices; Dielectric substrates; Electrodes; Nitrogen; Oxidation; Plasma temperature; Thermal degradation; Tunneling;
Journal_Title :
Electron Device Letters, IEEE
