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Determination of the Thickness of Sio2-Layers on Si by X-Ray Analysis and by X-Ray Photoelectron Spectroscopy

Published online by Cambridge University Press:  06 March 2019

Maria F. Ebel ,
H. Ebel  and
J. Wernisch
Maria F. Ebel
Affiliation:
Institut für Technische Physik, Technische Universitat Wien, Vienna, Austria
H. Ebel
Affiliation:
Institut für Technische Physik, Technische Universitat Wien, Vienna, Austria
J. Wernisch
Affiliation:
Institut für Technische Physik, Technische Universitat Wien, Vienna, Austria
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Extract

It is feasible to investigate the thickness of oxide layers on silicon wafers by X-radiation in the 0.1-10 nm thickness range. For example, X-ray photoelectron spectroscopy (XPS) is a well applicable technique, with information depth of a few nm. Fig. 1 presents the principle of this method. An impinging characteristic X-radiation hν (e.g. Al Kα) count rate ejects Si 2p photoelectrons from the Si-substrate (d), with count rate n2, which, on their way to the electron spectrometer, have to pass through the SiOx-interface (c), the SiO2-layer (b) and the contamination overlayer (a), whereas Si 2p photoelectrons ejected from the SiO2-layer, with count rate n2 have just to penetrate the contamination overlayer. The Si 2p electrons originating from the SiOx-interface, for the situation shown in Fig. 1, can be added to the substrate count rate.

Type
Other XRF Applications
Information
Advances in X-Ray Analysis , Volume 23: Twenty-Eighth Annual Conference on Applications of X-ray Analysis, July 30 - August 3, 1979 , 1979 , pp. 223 - 230
Copyright
Copyright © International Centre for Diffraction Data 1979

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References

1. Fadley, C. S., “Solid State- and Surface-Analysis by Means of Angular-Dependent X-Ray Photoelectron Spectroscopy,” Progress in Solid State Chemistry 11:265343 (1976).Google Scholar
2. Ebel, M. F., “Zur Bestimmung der reduzierten Dicke D/ƛ dUnner Schichten mittels XPS,” J. Electron Spectrosc. Relat. Phenom. 14;287322 (1978).Google Scholar
3. Ebel, M. F. and Liebl, W., “Evaluation of XPS-Data of Oxide Layers,” J. Electron Spectrosc. Relat. Phenom. 16;463-47Q (1979).Google Scholar
4. Penn, D. R., “Quantitative Chemical Analysis by ESCA,” J. Electron Spectrosc. Relat. Phenom. 9:2940 (1976).Google Scholar