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2 November 2000 In-situ ellipsometric measurements of thin film aluminum oxidation
Eric K. Lindmark, Janusz J. Nowak, Mark T. Kief
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Proceedings Volume 4099, Optical Metrology Roadmap for the Semiconductor, Optical, and Data Storage Industries; (2000) https://doi.org/10.1117/12.405822
Event: International Symposium on Optical Science and Technology, 2000, San Diego, CA, United States
Abstract
In situ spectroscopic ellipsometry is a useful tool for characterizing the kinetics of aluminum oxide growth. Thin aluminum films were deposited on thermally oxidized silicon wafers and dosed with oxygen. Real-time in situ ellipsometry was used to monitor both natural and UV oxidation processes using different oxygen pressures. The raw data was subsequently fit to an optical multi-layer model. The ellipsometric data was sensitive to changes in the oxide layer thickness of much less than a monolayer. With the time scale of our data acquisition two different growth regimes were seen in the fitted data in agreement with the Mott-Cabrera model of oxidation. The growth rate became larger with the assistance of light from the UV lamp.
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Eric K. Lindmark, Janusz J. Nowak, and Mark T. Kief "In-situ ellipsometric measurements of thin film aluminum oxidation", Proc. SPIE 4099, Optical Metrology Roadmap for the Semiconductor, Optical, and Data Storage Industries, (2 November 2000); https://doi.org/10.1117/12.405822
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KEYWORDS
Oxides
Aluminum
Oxidation
Oxygen
Data modeling
Ultraviolet radiation
Semiconducting wafers
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