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Evolution of Electronic Structure in Titanium Alloys with 3d–5d Transition Metals

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Abstract

Based on numerical calculations of the self-consistent band structure of intermetallic titanium compounds with 3d–5d transition metals of group VIII performed by the full-potential linear augmented-plane-wave method, the specific features of the change in the electronic structure are discussed for a series of isoelectronic compounds and for a variable number of valence electrons. The x-ray emission and absorption spectra and the spectra of characteristic electron losses calculated with allowance for the matrix element of transition probabilities are in good agreement with the experiment.

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Authors and Affiliations

  1. Institute for Strength Physics and Materials Sciences, Russia

    S. E. Kul'kova, D. V. Valuiskii & I. Yu. Smolin

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  1. S. E. Kul'kova
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  2. D. V. Valuiskii
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  3. I. Yu. Smolin
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Kul'kova, S.E., Valuiskii, D.V. & Smolin, I.Y. Evolution of Electronic Structure in Titanium Alloys with 3d–5d Transition Metals. Russian Physics Journal 43, 765–773 (2000). https://doi.org/10.1023/A:1009484020812

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