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Journal of Physical Studies 9(2), 118–123 (2005)
DOI: https://doi.org/10.30970/jps.09.118 ELECTRONIC STRUCTURE OF DISORDERED TRANSITION METALS WITHIN SCATTERING THEORYP. M. Yakibchuk, O. V. Volkov, S. O. Vakarchuk
Ivan Franko National University of Lviv |
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Here we present a new approach to the calculation of density of states of disordered transition metals based on the $T$-matrix framework presented by Lloyd within generalized Ziman's theory of transport properties and energy structure of disordered metals. This approach makes it possible to avoid such difficulties of familiar calculations as renormalized perturbation theory. We have achieved double hill energy resonance for transition metals at Fe and Co groups caused by hybridization potential. So the results are in good correlation with model presentation of energy structure of these metals conduction band for explaining magnetic and transport properties.
PACS number(s): 43.38.Kw