Title :
Extreme ultraviolet lithography capabilities at the advanced light source using a 0.3-NA optic
Author :
Naulleau, Patrick ; Goldberg, Kenneth A. ; Cain, Jason P. ; Anderson, Erik H. ; Dean, Kim R. ; Denham, Paul ; Hoef, Brian ; Jackson, Keith H.
Author_Institution :
Coll. of Nanoscale Sci. & Eng., Univ. at Albany, NY, USA
Abstract :
Extreme ultraviolet lithography is a leading candidate for volume production of nanoelectronics at the 32-nm node and beyond. In order to ensure adequate maturity of the technology by the start date for the 32-nm node, advanced development tools are required today with numerical apertures of 0.25 or larger. In order to meet these development needs, a microexposure tool based on SEMATECH´s 0.3-numerical aperture microfield optic has been developed and implemented at Lawrence Berkeley National Laboratory, Berkeley, CA. Here we describe the Berkeley exposure tool in detail, discuss its characterization, and summarize printing results obtained over the past year. Limited by the availability of ultrahigh resolution chemically amplified resists, present resolving capabilities limits are approximately 32 nm for equal lines and spaces and 28 nm for semi-isolated lines.
Keywords :
micro-optics; nanotechnology; ultraviolet lithography; 0.3-NA optic; Berkeley exposure tool; SEMATECH; advanced development tools; advanced light sources; chemically amplified resists; extreme ultraviolet lithography; microexposure tool; microfield optic; nanoelectronics; numerical apertures; semiisolated lines; ultrahigh resolution resists; volume production; Apertures; Chemicals; Laboratories; Light sources; Lithography; Nanoelectronics; Printing; Production; Stimulated emission; Ultraviolet sources; Extreme ultraviolet (EUV); lithography;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2005.858450
