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A Molecular Beam Study of the Reaction of Molecular Chlorine with Gallium Arsenide

Published online by Cambridge University Press:  25 February 2011

Chaochin Su ,
Zi-Guo Dai ,
Gang Ho Lee  and
Matt Vernon
Chaochin Su
Affiliation:
Columbia University, Department of Chemistry, New York City, NY 10027
Zi-Guo Dai
Affiliation:
Columbia University, Department of Chemistry, New York City, NY 10027
Gang Ho Lee
Affiliation:
Columbia University, Department of Chemistry, New York City, NY 10027
Matt Vernon
Affiliation:
Columbia University, Department of Chemistry, New York City, NY 10027
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Abstract

Molecular chlorine is scattered from a GaAs(100) surface and the reaction products detected by a mass spectrometer. A careful analysis of the velocity and angular distributions of the reaction products as well as the vibrational energy dependence of the daughter ion fragmentation pattern shows that the steady state reaction is stoichiometric in the removal of Ga and As until the incongruent evaporation rate exceeds the etch rate induced by the incident chlorine flux. The depletion of the nonreactive molecular chlorine signal is accounted for by the flux of chlorinated reaction products. The absolute etch rates as well as the incident chlorine flux are determined from the known evaporation rate of GaAs at the incongruent evaporation temperature. Modulated molecular beam scattering is used to establish some necessary reaction steps.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 204: Symposium E – Chemical Perspectives of Microelectronic Materials II , 1990 , 31
Copyright
Copyright © Materials Research Society 1991

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References

REFERENCES

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