Title :
Electron spin resonance study of radiation-induced points defects in nitrided and reoxidized nitrided oxides
Author :
Yount, J.T. ; Lenahan, P.M. ; Dunn, G.J.
Author_Institution :
Dept. of Eng. Sci. & Mech., Pennsylvania State Univ., University Park, PA, USA
fDate :
12/1/1992 12:00:00 AM
Abstract :
X-ray irradiated oxide, nitrided oxide, and reoxidized nitrided oxide films were studied with electron spin resonance. Nitridation of oxide films reduces the density of radiation-induced E´ centers and creates bridging nitrogen center precursors, while reoxidation of nitrided oxides increases the number of radiation-induced E´ centers, reduces the number of bridging nitrogen center precursors, and introduces overcoordinated nitrogen center precursors. Nitridation and reoxidation of these films also change the distribution of the radiation-induced defects. The present evidence supports earlier findings that the bridging nitrogen defect plays an important role in electron trapping in nitrided oxides and that the dominant hole trap in reoxidized nitrided oxides is not the E´ center. Exposure to molecular hydrogen at room temperature annihilates paramagnetism of the nitrogen-associated centers and reduces that of the E´ centers
Keywords :
X-ray effects; defect electron energy states; dielectric thin films; electron traps; hole traps; metal-insulator-semiconductor devices; nitridation; oxidation; paramagnetic resonance of defects; point defects; silicon compounds; H2 exposure; MOS devices; N centre precursors; ROXNOX; SiOxNy films; X-ray irradiation; electron spin resonance; electron trapping; hole trap; nitridation; nitrided oxide; radiation-induced E´ centers; radiation-induced points defects; reoxidation; reoxidized nitrided oxide films; Atomic measurements; Dielectric thin films; Electron traps; Hydrogen; Nitrogen; Paramagnetic resonance; Rapid thermal processing; Semiconductor films; Silicon compounds; Temperature;
Journal_Title :
Nuclear Science, IEEE Transactions on
