Design and application of Gray Field/sup TM/ technology for defect inspection systems

Design and application of Gray Field/sup TM/ technology for defect inspection systems

There has been increased interest in optical inspection tools that utilize UV illumination. This originates from the belief that diffraction limits will render tools employing longer wavelengths blind to many defects identified as being critical. In response to concerns over the applicability of UV...

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Bibliographic Details
Published in:2001 IEEE/SEMI Advanced Semiconductor Manufacturing Conference (IEEE Cat. No.01CH37160) pp. 223 - 229
Main Authors: Wright, P.J., Rheinhorn, S., Some, D.
Format: Conference Proceeding
Language:English
Published: IEEE 2001
Subjects:
High speed optical techniques
Inspection
Lighting
Optical design
Optical diffraction
Optical noise
Optical scattering
Optical sensors
Production
Throughput
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Summary:There has been increased interest in optical inspection tools that utilize UV illumination. This originates from the belief that diffraction limits will render tools employing longer wavelengths blind to many defects identified as being critical. In response to concerns over the applicability of UV illumination to rapid defect detection we performed a series of experiments to explore and develop new inspection techniques to provide the capability of detecting the dimensionally challenging defects associated with advanced technology nodes while maintaining high speeds needed for chipmakers' volume production lines. Initial results indicated that by radically redesigning the collection optics to a multiple perspective configuration that compiles information from six different scattering and reflecting directions, improved sensitivity, noise rejection and wafer throughput could be realized while using laser scanning illumination in the visible region of the spectrum. Also, defects that traditionally could only be observed in "bright field" tools were now detectable with ease at production worthy throughputs. Results are presented that show the optical experimental design data and simulations, and are corroborated by examples of defects from the resulting production defect inspection system, Compass/sup TM/. In addition, electron micrographs of a range of detected defects are presented that show the system versatility and the exact nature of the defects, thus allowing a clear understanding of the increase in sensitivity, speed and dimensional range these tools provide over traditional instrumentation to be made.
ISBN:0780365550
9780780365551
ISSN:1078-8743
2376-6697
DOI:10.1109/ASMC.2001.925650