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Attend a seminar exploring first-principles computational approaches to understanding spin-orbit driven transport phenomena in solid-state materials. Learn about advanced theoretical methods including the fully relativistic Korringa-Kohn-Rostoker Green's function method and semiclassical Boltzmann transport theory used to investigate spintronics phenomena. Discover research findings on spin relaxation mechanisms, spin and anomalous Hall effects including Berry-phase contributions, and the spin Nernst effect through comprehensive first-principles studies. Gain insights into cutting-edge computational techniques for modeling quantum transport in materials with strong spin-orbit coupling, presented by Dr. Dmitry Fedorov from Skoltech, covering work previously conducted in collaboration with Prof. Ingrid Mertig's research group in Germany.
