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Direct epitaxial growth of thin-film structures

Journal Article · · Journal of Vacuum Science and Technology. B, Microelectronics Processing and Phenomena
DOI:https://doi.org/10.1116/1.589758· OSTI ID:550478
; ; ;  [1]
  1. Oak Ridge National Laboratory, P.O. Box 2008, Solid State Division, Bldg. 3150, MS 6056, Oak Ridge, Tennessee 37831-6056 (United States)
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In this article we describe a method for direct epitaxial growth of thin-film structures using a combination of resistless electron beam lithography and supersonic molecular beam epitaxy. Electron beam irradiation of a surface hydride layer on silicon induces hydrogen desorption and hence alters the surface reactivity of the exposed area. Introduction of a source gas concurrently with, or immediately following electron beam exposure results in a pattern formation on the exposed area. Continuous silicon oxide patterns with linewidths below 0.1 {mu}m have been achieved. The resulting pattern can be also used as a mask for subsequent selective growth on the unexposed area. Supersonic molecular beam epitaxy is a highly nonequilibrium film growth method that uses translationally hot source gas species generated by a high pressure gas expansion. Since the reactivity of the source gas molecules depends exponentially on the incident kinetic energy, the chemical selectivity of the film growth process can be altered by tuning the incident kinetic energy. Arbitrary patterns with linewidths on the order of 0.1 {mu}m have been achieved with Si, Ge, and SiC epitaxy on Si (100) and Si epitaxy on Ge (100). {copyright} {ital 1997 American Vacuum Society.}

Research Organization:
Oak Ridge National Laboratory
DOE Contract Number:
AC05-84OR21400
OSTI ID:
550478
Report Number(s):
CONF-9705218--
Journal Information:
Journal of Vacuum Science and Technology. B, Microelectronics Processing and Phenomena, Journal Name: Journal of Vacuum Science and Technology. B, Microelectronics Processing and Phenomena Journal Issue: 6 Vol. 15; ISSN JVTBD9; ISSN 0734-211X
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
DESORPTION
ELECTRON BEAMS
GERMANIUM SILICIDES
MOLECULAR BEAM EPITAXY
RADIATION EFFECTS
SILICON CARBIDES
SUPERSONIC FLOW
THIN FILMS