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The Effects of Electronic Structure and Interatomic Bonding on the Soft X-Ray Al K Emission Spectrum from Aluminum Binary Systems

Published online by Cambridge University Press:  06 March 2019

David W. Fischer  and
William L. Baun
David W. Fischer
Affiliation:
Air Force Materials Laboratory (MAYA) Wright-Patterson Air Force Base, Ohio
William L. Baun
Affiliation:
Air Force Materials Laboratory (MAYA) Wright-Patterson Air Force Base, Ohio
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Abstract

The aluminum K X-ray emission lines and bands from a series of aluminum binary alloys and other binary compounds were investigated using 6 kV electron excitation and a flat crystal vacuum spectrometer. The overall shape of the emission band and its energy position as a function of alloy composition was determined. It appears from the data that the aluminum K band undergoes changes in shape and energy position which are dependent on the electronic configuration of the element with which the aluminum is chemically bonded. These band changes can be interpreted as indicating a change in the bonding character between the metal atoms. In the Al-Ni system, for instance, the Al K band becomes more symmetrical and shifts to lower energy as the nickel content is increased, indicating that perhaps the bonding on the aluminum atoms is becoming less metallic and more covalent in nature as the nickel to aluminum ratio is increased.

The aluminum Kα4/Kα3 satellite line intensity ratio also varies in an orderly manner in aluminum binary compounds. In general, these satellite line changes go hand-in-hand with the K band changes. If the K band shifts to lower energy, the Kα4/Kα3 intensity ratio will always increase in value.

Type
Research Article
Information
Advances in X-Ray Analysis , Volume 10: Fifteenth Annual Conference on Applications of X-ray Analysis, August 10-12, 1966 , 1966 , pp. 374 - 389
Copyright
Copyright © International Centre for Diffraction Data 1966

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References

1. Appleton, A., “The Soft X-Ray Emission. Spectra of Metals and Alloys: I. The Origin and Interpretation of the Soft X-Ray Spectra of Metals,” Contemp. Phys. 6: 5067, 1964.Google Scholar
2. Thompson, B. J. and Kellen, P. F., “The Soft X-Ray Emission Band Spectra of Metals and Alloys,” Developments in Applied Spectroscopy, Vol. 4, Plenum Press, New York, 1965.Google Scholar
3. Fischer, D. W. and Baun, W. L., “Diagram and Non-Diagram Lines in K Spectra of Aluminum and Oxygen from Metallic and Anodized Aluminum,” J. Appl. Phys. 36: 534, 1965.Google Scholar
4. Baun, W. L. and Fischer, D. W., “High Energy of Satellites in the Aluminum K X-Ray Emission Spectrum,” Phys. Letters 13: 36, 1964.Google Scholar
5. Baun, W. L. and Fischer, D. W., “The Influence of Chemical Combination on Aluminum K Diagram and Non-Diagram Lines,” Nature 204: 642, 1964.Google Scholar
6. Baun, W. L. and Fischer, D. W., “The Effect of Chemical Combination on K X-Ray Emission Spectra From Magnesium, Aluminum and Silicon,” AFML-TR-64-350, December 1964.Google Scholar
7. Fischer, D. W. and Baun, W. L., “Diagram and Non-Diagram Lines in K Spectra of Magnesium and Oxygen from Metallic and Anodized Magnesium,” Spectrochim. Acta 21: 443, 1965.Google Scholar
8. Liefeld, R. J., “Lα X-Ray Emission Lines of Nickel, Copper, and Zinc,” Bull. Am. Phys. Soc. 10(4), 549, 1965.Google Scholar
9. Fischer, D. W. and Baun, W. L., “Effect of Alloying on the Aluminum K and Nickel L X-Ray Emission Spectra in the Aluminum-Nickel Binary System,” Phys. Rev. 145: 555, 1966.Google Scholar
10. Nemnonov, S. A. and Finkel'shtein, L. D., “Kβ Emission Band and K Absorption Edge of Aluminum in Some Alloys with Transition Metals,” Bull. Acad. Sci. (U.S.S.R.), Phys. Ser. 25 (8), 1015, 1961.Google Scholar
11. Das, B. N. and Azaroff, L. V., “X-Ray K Absorption Spectra of Ni-Al Alloys,” Acta Metall. 13: 827, 1965.Google Scholar
12. Baun, W. L. and Fischer, D. W., “Effect of Alloying on the Aluminum K X-Ray Emission Spectrum in the Aluminum-Copper System,” to appear in J. Appi. Phys. Google Scholar
13. Yoshida, S., Sci. Papers Inst. Phys. Chem. Research (Tokyo) 28: 2431, 1936.Google Scholar
14. Farineau, J., “Contribution à l'Etude Spectrographique de la Structure Electronique des Métaux,” J. Phys. Rad. 10: 327, 1939.Google Scholar
15. Friedel, J., “Distribution of Electrons Round Impurities in Monovalent Elements,” Phil. Mag. 43: 153, 1952.Google Scholar
16. Fischer, D. W. and Baun, W. L., “The Effects of Electronic Structure and Interatomic Bonding on the Soft X-Ray Emission Spectra from Aluminum Binary Systems,” AFML-TR66-191, June 1966.Google Scholar