Title :
Defect detection algorithm for wafer inspection based on laser scanning
Author :
Nikoonahad, Mehrdad ; Wayman, Charles E. ; Biellak, Stephen A.
Author_Institution :
Film Meas. Div., LA-Tencor Corp., Milpitas, CA, USA
fDate :
11/1/1997 12:00:00 AM
Abstract :
A defect detection algorithm for wafer inspection based on laser scanning is presented. Microscopic anomalies, contaminants, and process induced pattern defects result in a two-dimensional (2-D) laser scattering signature, which closely resembles the coherent point-spread-function of the scanning laser beam. This point-spread-function is a 2-D Gaussian in the majority of cases and can be characterized by four parameters. The algorithm fits Gaussian surfaces to sampled data points. Events are accepted or rejected on the basis of how similar the Gaussian parameters are to that of the point-spread-function, known a priori. It is shown that the algorithm achieves a 95% capture for submicron particles and pattern defects on typical logic and array wafer regions. Results demonstrating the algorithm´s performance relative to mechanical and electronic noise and to signal resolution are presented
Keywords :
digital integrated circuits; inspection; integrated circuit yield; laser beam applications; optical scanners; production testing; 2D laser scattering signature; Gaussian surfaces; array wafer regions; coherent point-spread-function; contaminants; defect detection algorithm; electronic noise; laser scanning; mechanical noise; microscopic anomalies; process induced pattern defects; sampled data points; signal resolution; submicron particles; wafer inspection; Detection algorithms; Inspection; Laser beams; Light scattering; Lighting; Optical films; Optical refraction; Optical scattering; Optical variables control; Particle scattering;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
