Anodic Oxidation of Si in Oxygen/Chlorine Plasma

By adding a few percent of chlorine to oxygen plasma, the anodization rate of Si was enhanced; for example, the rate was doubled for oxygen containing 3-percent chlorine. With a chlorine concentration of 1.5 percent, the density of trap states at the Si-SiO/sub 2/ interface was reduced from 7 X 10/sup 11//cm/sup 2//spl dot/eV to 5 X 10/sup 11//cm/sup 2/ /spl dot/eV at the midgap of Si; after annealing at 800/spl deg/C in argon for 60 min, it was reduced to 8 X 10/sup 10//cm/sup 2//spl dot/eV, and did not return to the original value after heating the specimen to 800/spl deg/C. The density and capture cross section of traps in plasma-anodic oxide were also measured using the constant-current avalanche-injection method. The number of electron traps with small cross sections in plasma-anodic SiO/sub 2/ films was reduced by annealing them at 800/spl deg/C in argon, but SiO/sub 2/ films which were anodized in oxygen/chlorine plasma showed an increase of trap density under the same annealing condition.