A study of various oxide/silicon interfaces by Ar+ backsurface bombardment

作者:Lai PT*; Li GQ; Huang MQ; Zeng SH; Cheng YC
来源:Journal of Applied Physics, 1999, 85(4): 2253-2256.
DOI:10.1063/1.369534

摘要

A low-energy (550 eV) argon beam is used to bombard the backsurfaces of 6 kinds of metaloxide-semiconductor capacitors, and the resulting effects on their interface characteristics are then investigated. The gate oxide of these capacitors includes thermal oxide, trichloroethyene (TCE) oxide, NH3-nitrided oxide, reoxidized-nitrided oxide, rapid-thermal-nitrided oxide, and N2O-nitrided oxide. Measurements show that for bombardment times up to 45 min the interface-state density of all the devices, in general, decreases with increasing bombardment time/dose, and the midgap energy at the silicon surface tends to rise. Moreover, the bombardment is more effective in reducing acceptor-type than donor-type interface states. On the other hand, the change of fixed-charge density is more complex. For TCE, N2O- nitrided and reoxidized-nitrided oxides, fixed-charge density decreases initially with increasing bombardment time, but then increases, while the trend is reversed for the other gate oxides. A model with stress compensation and weak bond breaking is suggested to explain the results.