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Publication Citation: Intercomparison of SEM, AFM, and Electrical Linewidths

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Author(s): John S. Villarrubia; Ronald G. Dixson; Samuel N. Jones; J R. Lowney; Michael T. Postek; Richard A. Allen; Michael W. Cresswell;
Title: Intercomparison of SEM, AFM, and Electrical Linewidths
Published: June 01, 1999
Abstract: Uncertainty in the locations of line edges dominates the uncertainty budget for high quality sub-micrometer linewidth measurements. For microscopic techniques like scanning electron microscopy (SEM) and atomic force microscopy (AFM), the image of the sharp edge is broadened due to the instrument's non-ideal response. Localizing the true edge position within its broadened image requires a model for the instrument-sample interaction. Ideal left and right edges are mirror images of one another, so any modeling error in the position assignment will have opposite signs for the two types of edges. Linewidth measurement inherently involves such opposite edges and consequent doubling of model errors. Similar considerations apply to electrical critical dimension (ECD) measurement. Although ECD is a non-imaging technique, one must still model the offset between the position of the physical edge and the effective edge of the conducting part of the line. One approach to estimating the reliability of existing models is to compare results when fundamentally different instruments measure the same line. We have begun a project to perform such an intercomparison, and we report here initial results for SEM, AFM, and ECD measurements of sub-micrometer lines in single crystal Si. Edge positions are determined from SEM images using Monte Carlo tracing of electron trajectories to predict the edge shape. In the AFM, we estimate and correct for tip geometry using tools from mathematical morphology. ECD measurements are corrected for band bending in the neighborhood of the edges.
Conference: New Technology/New Approaches To Metrology
Proceedings: Proceedings of SPIE, Metrology, Inspection, and Process Control for Microlithography XIII, Bhanwar Singh, Editor
Volume: 3677
Pages: pp. 587 - 598
Dates: March 15, 1999
Keywords: atomic force microscope;critical dimension;electrical critical dimension;linewidth metrology;scanning electron microscope
Research Areas: Metrology, Manufacturing