Defect classification using scattered light intensities

Assignee

• MEMC Electronic Materials, Inc. · US

Inventor

• David John Ruprecht · Holden, US

Key dates

Classification

• Technology area (CPC G)Physics
• CPC primaryG01N21/9501
• WIPO fieldMeasurement
• WIPO sectorInstruments

Abstract

A system and method for detecting and classifying defects associated with the surface of semiconductor wafers, namely silicon wafers. An inspection device directs a laser light onto the wafer surface. Defects on the surface scatter the laser light into a plurality of photomultiplier tubes positioned to collect light scattered in distinct and separate collection angles. The photomultiplier tubes generate signals indicative of the estimated size of a defect causing the light to scatter based on the intensity of the light received by each respective photomultiplier tube. A processor compares the size estimations to a plurality of empirically determined power functions to identify the most likely type of the defect. The empirically determined power functions are derived from data obtained by manually inspecting a plurality of wafers. The size estimations are determined by comparing actual light intensities with calibration data obtained by scattering laser light off of known geometric objects, such as polystyrene latex spheres.