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1 June 1990 1X deep-UV lithography with chemical amplification for 1-micron DRAM production
John G. Maltabes, Steven J. Holmes, James R. Morrow, Roger L. Barr, Mark C. Hakey, Gregg Reynolds, William R. Brunsvold, C. Grant Willson, Nicholas J. Clecak, Scott A. MacDonald, Hiroshi Ito
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Proceedings Volume 1262, Advances in Resist Technology and Processing VII; (1990) https://doi.org/10.1117/12.20090
Event: Microlithography '90, 1990, San Jose, CA, United States
Abstract
This paper describes methods used and results obtained in the production of 1-megabit (Mb) DRAM chips, using a chemically amplified tertiary-butoxy carhonyl hydroxystyrene (t-BOC) resist and 1X lithography. 'Flie internally developed resist provided high sensitivity and contrast, for I rn resolution on a Perkin Elmer Micralign model 500 (PE 500) in the deep UV. Characterization, and modification of the PE 500 were required for this first application in the deep UV. The manufacturing process had photo limited yield in excess of 95% with throughput of 100 wafers per hour.
© (1990) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
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John G. Maltabes, Steven J. Holmes, James R. Morrow, Roger L. Barr, Mark C. Hakey, Gregg Reynolds, William R. Brunsvold, C. Grant Willson, Nicholas J. Clecak, Scott A. MacDonald, and Hiroshi Ito "1X deep-UV lithography with chemical amplification for 1-micron DRAM production", Proc. SPIE 1262, Advances in Resist Technology and Processing VII, (1 June 1990); https://doi.org/10.1117/12.20090
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Cited by 19 scholarly publications and 3 patents.
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KEYWORDS
Deep ultraviolet
Semiconducting wafers
Image processing
Lithography
Manufacturing
Photoresist processing
Industrial chemicals
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