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Publication Citation: Enhancing 9 nm Node Dense Patterned Defect Optical Inspection using Polarization, Angle, and Focus

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Author(s): Bryan M. Barnes; Francois R. Goasmat; Martin Y. Sohn; Hui Zhou; Abraham Arceo;
Title: Enhancing 9 nm Node Dense Patterned Defect Optical Inspection using Polarization, Angle, and Focus
Published: April 10, 2013
Abstract: To measure the new SEMATECH 9 nm node Intentional Defect Array (IDA) and subsequent small, complex defects, a methodology has been used to exploit the rich information content generated when simulating or acquiring several images of sub-wavelength-sized defects through best focus. These images, which are xy planes, collected using polarized illumination are stacked according to focus position, z, and through interpolation, volumetric pixels (,voxelsŠ) are formed sized approximately 40 nm per side. From the image data, an intensity can be assigned to each (x,y,z) position. These four-dimensional matrices are extensively filtered for defect detection using multi-dimensional intensity thresholding, nearest-neighbor criteria, continuity requirements, and other techniques standard to optical defect inspection. A simulation example with oblique angles of illumination is presented. Experimental results are shown from the NIST 193 nm Microscope using full-field illumination. Volumetric data analysis is compared against the processing of single 2-D images. Defect metrics for comparing planar and volumetric data are developed with the potential shown for a five-fold increase in defect sensitivity using volumetric data versus conventional imaging.
Conference: Metrology, Inspection, and Process Control for Microlithography XXVII
Proceedings: Proceedings of the SPIE
Volume: 8681
Pages: 8 pp.
Location: San Jose, CA
Dates: February 24-28, 2013
Keywords: Defect detection; Scatterfield optical microscopy; bright-field microscopy; dark-field microscopy; volumetric imaging
Research Areas: Metrology and Standards for Manufacturing Processes, Optical Metrology, Consortiums, Inspection, Optical microscopy, Industry, UV Optical Metrology, Characterization, Nanometrology, and Nanoscale Measurements
DOI: http://dx.doi.org/10.1117/12.2012250  (Note: May link to a non-U.S. Government webpage)
PDF version: PDF Document Click here to retrieve PDF version of paper (1MB)