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7 July 1997 Wavefront engineering from 500- to 100-nm CD
David Levenson
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Proceedings Volume 3051, Optical Microlithography X; (1997) https://doi.org/10.1117/12.275982
Event: Microlithography '97, 1997, Santa Clara, CA, United States
Abstract
`Wavefront Engineering' is the discipline of producing an exposure pattern, adequate for delineating resist at high yield, in spite of the limitations of the imaging technology. Although this discipline relies on century-old optical insights and despite decade-past experiments demonstrating dramatic improvements in resolution and process-window, this field has languished in comparison to traditional approaches, such as exposing with shorter wavelength radiation or larger numerical apertures. Further progress in NA and (lambda) will soon be limited by physical and materials considerations, necessitating other schemes for decreasing the critical dimensions of volume-production devices. Today, with 193 nm systems delayed and non-optical approaches confronting infrastructure and economic barriers, the semiconductor industry is trying to adopt such wavefront engineering techniques as Off-Axis Illumination, Optical Proximity Correction and Phase-Shifting Masks. CAD/CAM methods similar to those applied to optimize lenses and chips now are being applied to optimize the exposure-dose pattern itself.
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David Levenson "Wavefront engineering from 500- to 100-nm CD", Proc. SPIE 3051, Optical Microlithography X, (7 July 1997); https://doi.org/10.1117/12.275982
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KEYWORDS
Wavefronts
Critical dimension metrology
Illumination engineering
Imaging technologies
Lenses
Optical proximity correction
Phase shifts
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