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Temperature-dependent bandstructure of ferromagnetic metals with localized moments
Authors:W. Nolting  T. Dambeck  G. Borstel
Affiliation:(1) Facultad de Ciencias, Fisica Teorica, Universidad de Valladolid, E-47011 Valladolid, Spain;(2) Fachbereich Physik der Universität Osnabrück, W-4500 Osnabrück, Germany
Abstract:We consider a theoretical model for ferromagnetic metals like Gd, which takes into account the exchange interaction and the hybridization between two electronic subsystems. The first is built up by quasi-localized electrons, which take care for the existence of permanent magnetic moments, and is described by an atomic limit multiband Hubbard-Hamiltonian. The second subsystem consists of relatively broad conduction bands with more or less ldquofreerdquo electrons. We investigate the influence of electron correlations on the conduction band states in dependence of temperatureT and bandfillingn. A sensitive reaction of the band states on the magnetic ordering of the moment system leads to strong band deformations. The main goal is the determination of a quasiparticle bandstructure, which we derive in analogy to the experiment (PES, IPE) directly from the spectral density. The new aspect is a splitting of the ldquobarerdquo dispersion epsim (k) into several quasiparticle dispersion curves with stronglyT-andn-dependent spectral weights. Even forT>Tc an ldquoexchange-causedrdquo splitting is found. — In this paper we use as input for the ldquofreerdquo band energies epsim (k) a nondegenerate simple cubic-tight binding expression, and in addition seven dispersionlessf-levels, in order to stress mainly the influence of many body effects. It is discussed how the model can be coupled to a LDA bandstructure calculation, in order to get quantitative results for theT-dependent electronic structure of the ferromagnetic 4f-metal Gd, the presentation of which is intended in a forthcoming paper.
Keywords:
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