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26 June 2003 Boundary layer model to account for thick mask effects in photolithography
Jaione Tirapu-Azpiroz, Paul Burchard, Eli Yablonovitch
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Proceedings Volume 5040, Optical Microlithography XVI; (2003) https://doi.org/10.1117/12.488803
Event: Microlithography 2003, 2003, Santa Clara, California, United States
Abstract
The lack of transparent optical components at short wavelengths limits the available wavelengths in Deep Ultraviolet lithography, while the required minimum feature on wafer continues to shrink towards deeper sub-wavelength scales. This places a serious limitation on Kirchhoff boundary conditions that replace the field on the mask openings by the incident field, since this approximation fails to account for the increasingly important topographical effects (thick mask effects) in the computation of the lithographic image. In this paper we present a sophisticated various on Kirchhoff approximation capable of modeling rigorous near field effects while retaining the simplicity of the scalar model. Our model is based on a comparison of the fields produced by both the thick and ideal thin masks on the wafer. Polarization and edge diffraction effects as well as phase and transmission errors, are included in our model.
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Jaione Tirapu-Azpiroz, Paul Burchard, and Eli Yablonovitch "Boundary layer model to account for thick mask effects in photolithography", Proc. SPIE 5040, Optical Microlithography XVI, (26 June 2003); https://doi.org/10.1117/12.488803
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Cited by 31 scholarly publications and 15 patents.
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KEYWORDS
Photomasks
Semiconducting wafers
Polarization
Lithography
Diffraction
Optical lithography
3D modeling
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