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27 December 1996 Chemically amplified resist process for 0.25-um-generation photomasks
Mikio Katsumata, Hiroichi Kawahira, Minoru Sugawara, Satoru Nozawa
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Proceedings Volume 2884, 16th Annual BACUS Symposium on Photomask Technology and Management; (1996) https://doi.org/10.1117/12.262795
Event: 16th Annual BACUS Symposium on Photomask Technology and Management, 1996, Redwood City, CA, United States
Abstract
A chemically amplified negative electron beam resist process is developed for fabricating 0.25 micrometers devices 4X magnification reticles. In order to improve a critical dimension (CD) uniformity on reticles, a precise temperature controllability in post exposure baking is realized. Dry etching for Cr is also adopted for getting an appropriate pattern fidelity down to submicron on reticles to meet requirements for such an optical proximity effect correction. Under the optimized process conditions, a CD uniformity of 16 nm in 3 (sigma) is achieved on reticles. A CD linearity of down to 0.8 micrometers on the reticles is ensured as well. Actual 0.25 micrometers device reticle production results show that the CD mean variation is controlled within +/- 43 nm. It is confirmed that an advanced 4X reticle fabrication process for 0.25 micrometers device generation is realized.
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Mikio Katsumata, Hiroichi Kawahira, Minoru Sugawara, and Satoru Nozawa "Chemically amplified resist process for 0.25-um-generation photomasks", Proc. SPIE 2884, 16th Annual BACUS Symposium on Photomask Technology and Management, (27 December 1996); https://doi.org/10.1117/12.262795
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KEYWORDS
Reticles
Critical dimension metrology
Dry etching
Photoresist processing
Chromium
Photomasks
Optical proximity correction
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