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Raman Scattering Study of the Au-Ge-Gaas Ohmic Contact Structure Formed by Rapid Thermal Processing

Published online by Cambridge University Press:  28 February 2011

D. Kirillov
Affiliation:
Varian Research Center, 611 Hansen Way, Palo Alto, Ca 94303
Y. Chung
Affiliation:
Varian Research Center, 611 Hansen Way, Palo Alto, Ca 94303
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Abstract

Raman Scattering Was Used To Obtain New Information on the formation of Au-Ge-GaAs alloyed ohmic contacts. During alloying, we observe that amorphous Ge is transfoplmed into polycrystalline material. When Ge diffuses into the GaAs, no n+-GaAs layer is formed. Due to the intermixing of layers, both GaAs and Ge had a large number of impurities which formed deep electronic states in the forbidden gap. Electronic light scattering involving these states was observed. While several models for the Au-Ge-GaAs ohmic contact have been proposed, the model consistent with our Raman data includes resonant tunneling assisted by impurity levels in the graded Au-Ge-GaAs heterojunction structure as a basic conduction mechanism.

Type
Research Article
Copyright
Copyright © Materials Research Society 1987

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References

REFERENCES

1. Palmstrom, C. J. and Morgan, D. V., in Gallium Arsenide Materials, Devices and Circuits, ed. Howes, M. J. and Morgan, D. V. (John Wiley and Sons, 1985), p. 195.Google Scholar
2. Robinson, G., in Physics and Chemistry of 3–5 Compound Semiconductor Interfaces, ed. Wilmsen, C. W. (Plenum Press, New York, 1985), p. 73.Google Scholar
3. Brodsky, M. H., in Light Scattering in Solids, ed. Cardona, M. (Springer, 1985), p. 208.Google Scholar
4. Mooradian, A., Phys. Rev. Lett. 22, 185 (1969).Google Scholar
5. Hayes, W. and Loudon, R., Scattering of Light by Crystals (John Wiley and Sons, 1978).Google Scholar
6. Abstreiter, G., Bauser, E., Fischer, A. and Ploog, K., Appl. Phys. 16, 345 (1978).Google Scholar
7. Shklovskii, B. I. and Efros, A. L., in Electronic Properties of Doped Semiconductors (Springer, 1984).Google Scholar