DocumentCode
1082355
Title
Improving resolution in photolithography with a phase-shifting mask
Author
Levenson, Marc D. ; Viswanathan, N.S. ; Simpson, Robert A.
Author_Institution
IBM Research Laboratory, San Jose, CA
Volume
29
Issue
12
fYear
1982
fDate
12/1/1982 12:00:00 AM
Firstpage
1828
Lastpage
1836
Abstract
The phase-shifting mask consists of a normal transmission mask that has been coated with a transparent layer patterned to ensure that the optical phases of nearest apertures are opposite. Destructive interference between waves from adjacent apertures cancels some diffraction effects and increases the spatial resolution with which such patterns can be projected. A simple theory predicts a near doubling of resolution for illumination with partial incoherence σ < 0.3, and substantial improvements in resolution for σ < 0.7. Initial results obtained with a phase-shifting mask patterned with typical device structures by electron-beam lithography and exposed using a Mann 4800 10X tool reveals a 40-percent increase in usuable resolution with some structures printed at a resolution of 1000 lines/mm. Phase-shifting mask structures can be used to facilitate proximity printing with larger gaps between mask and wafer. Theory indicates that the increase in resolution is accompanied by a minimal decrease in depth of focus. Thus the phase-shifting mask may be the most desirable device for enhancing optical lithography resolution in the VLSI/VHSIC era.
Keywords
Apertures; Interference cancellation; Lighting; Lithography; Optical devices; Optical diffraction; Printing; Spatial resolution; Very high speed integrated circuits; Very large scale integration;
fLanguage
English
Journal_Title
Electron Devices, IEEE Transactions on
Publisher
ieee
ISSN
0018-9383
Type
jour
DOI
10.1109/T-ED.1982.21037
Filename
1482534
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