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Proceedings Paper

Deep-Ultraviolet (UV) Source For Two-Level Resist Technology
Author(s): B. F. Griffing; P. D. Johnson; J. F. Norton
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Paper Abstract

High resolution optical lithography demands a sophisticated photoresist technology. Recent work in this arfa has concentrated on multilevel resists. An example is a two layer resist (TLR) technique which uses a thin top layer of positive resist over a thick layer of PMMA. The pattern formed in the thin top layer serves as a mask for a deep UV blanket exposure of the thick PMMA bottom layer. Previously, no deep UV source existed which was well suited to this application. This paper describes the development of such a UV source and its application to high resolution optical lithography. The TLR technique requires a UV source with output in the 200-230nm range and essentially no output below 200nm or between 230 and 300nm. A specially designed low pressure Cd arc lamp has been constructed for this application. The lamp is unique in the way the output is maximized in the 215-230nm range. The lamp is very efficient, converting 10% of its input into output at these wavelengths. Using the new lamp, resist (PMMA) structures of 0.5μ width having 3:1 vertical:horizontal aspect ratios have been fabricated. Such patterns have been used as etch masks for CC14 plasma etching of 0.5μ patterns in polysilicon. The large aspect ratio of the resist patterns was important in preventing resist degradation (during etching) from affecting the final polysilicon geometry.

Paper Details

Date Published: 28 July 1981
PDF: 7 pages
Proc. SPIE 0275, Semiconductor Microlithography VI, (28 July 1981); doi: 10.1117/12.931884
Show Author Affiliations
B. F. Griffing, General Electric Corporation (United States)
P. D. Johnson, General Electric Corporation (United States)
J. F. Norton, General Electric Corporation (United States)

Published in SPIE Proceedings Vol. 0275:
Semiconductor Microlithography VI
James W. Dey, Editor(s)

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