Title :
Computational analysis of the surface permittivity and charging of dielectrics with the SEM-mirror technique
Author :
Sudarshan, T.S. ; Wang, Jia
Author_Institution :
Dept. of Electr. & Comput. Eng., South Carolina Univ., Columbia, SC, USA
fDate :
12/1/1992 12:00:00 AM
Abstract :
Computational analysis based on the charge simulation method (CSM) is used to predict the electric potential distribution produced by charges implanted within the surface layer of a solid dielectric. The potential distribution thus obtained is used to match the experimental distribution using the scanning electron microscope (SEM) mirror technique. Using an optimization iteration process, a comparison is obtained for quartz, alumina, and yttria. The computational analysis assumes a surface layer with a permittivity higher than that of the bulk. The justification for this assumption is discussed. The electric potential distribution produced by a surface with increased surface defects, as determined by the SEM mirror technique, indicates a surface with a higher permittivity. It is also shown that the ability of such a surface to store charges is decreased. The results are consistent with physical models based on band structure (or trapping energy) considerations
Keywords :
computer aided analysis; dielectric polarisation; electrical engineering computing; permittivity; physics computing; scanning electron microscopy; Al2O3; SEM-mirror technique; SiO2; Y2O3; band structure; charge simulation method; computational analysis; dielectric charging; dielectrics; electric potential distribution; experimental distribution; optimization iteration process; physical models; quartz; scanning electron microscope; surface defects; surface permittivity; trapping energy; yttria; Analytical models; Computational modeling; Distributed computing; Electric potential; Mirrors; Permittivity; Predictive models; Scanning electron microscopy; Solid modeling; Surface charging;
Journal_Title :
Electrical Insulation, IEEE Transactions on
