Abstract
The electronic de-conductivities of liquid and amorphous 3d transition metals are calculated starting from the Kubo formula. The investigation is confined to elastic scattering. A self-consistent multiple-scattering supercell approach is employed. The real-space behaviour of the f Orbitals proves essential for the Kubo conductivity. Supercrystal effects are suppressed by means of an attenuation length which is also used for obtaining both the disorder-induced resistivity and the elastic mean free path. The influence of spin effects is discussed for amorphous iron.
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