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25 August 1987 An Improved Technique For 1/4 Micrometer Gate Length Gaas Mesfet Fabrication By Optical Lithography
Brad D. Cantos, Ronald D. Remba
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Proceedings Volume 0771, Advances in Resist Technology and Processing IV; (1987) https://doi.org/10.1117/12.940342
Event: Microlithography Conferences, 1987, Santa Clara, CA, United States
Abstract
This paper describes an innovative photolithographic method for the fabrication of 1/4 micrometer gates in gallium arsenide Metal-Semiconductor Field Effect Transistors (GaAs MESFETs). The method utilizes image reversal technology, in which negative polarity images are produced in positive diazide photoresists. This work describes improvements obtained using ammonia as the image reversal catalyst over work previously described which used imidazole [1]. The ammonia based image reversal process is characterized with respect to sensitivity to several process parameters and uniformity of the resultant linewidth. The linewidth uniformity attained using this process is ± 0.03 micrometer over a 50 mm diameter wafer and is currently used to fabricate 1/4 micrometer gate MESFETs on gallium arsenide.
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Brad D. Cantos and Ronald D. Remba "An Improved Technique For 1/4 Micrometer Gate Length Gaas Mesfet Fabrication By Optical Lithography", Proc. SPIE 0771, Advances in Resist Technology and Processing IV, (25 August 1987); https://doi.org/10.1117/12.940342
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Cited by 2 scholarly publications and 1 patent.
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KEYWORDS
Image processing
Semiconducting wafers
Photomasks
Metals
Gallium arsenide
Photoresist materials
Floods
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