Title :
An automated defect detection system for silicon carbide wafers
Author :
Kubota, Toshiro ; Talekar, Parag ; Sudarshan, Tangali S. ; Ma, Xianyun ; Parker, Mat ; Ma, Yuefei
Author_Institution :
South Carolina Univ., Columbia, SC, USA
Abstract :
Manual methods of defect detection and classification on silicon carbide (SiC) wafers are tedious, time consuming, and prone to errors. Recently, the SiC Research Group at the University of South Carolina has developed a nondestructive optical stress technique (photoelasticity) to isolate structural defects on silicon carbide wafers. The technique is rapid, non-destructive and inexpensive. In this paper we present an image processing system that exploits the group\´s technique to detect structural defects on SiC wafers. We are specifically interested in detecting defects known as "micropipes". We model the stress birefringence image of the wafer as a 3-D surface, the pixel intensity being the third dimension
Keywords :
crystal defects; mechanical birefringence; nondestructive testing; photoelasticity; silicon compounds; wide band gap semiconductors; SiC; automated defect detection system; image processing system; micropipes; nondestructive optical stress technique; photoelasticity; pixel intensity; stress birefringence; structural defects; wafers; Active contours; Fasteners; Image processing; Image segmentation; Inspection; Optical polarization; Silicon carbide; Spirals; Stress; Testing;
Conference_Titel :
SoutheastCon, 2002. Proceedings IEEE
Conference_Location :
Columbia, SC
Print_ISBN :
0-7803-7252-2
DOI :
10.1109/.2002.995555
