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Recommended for diploma and PhD students working in the area of correlated electron systems. Definition of the concept "correlated f-electron system". Electronic structure and tight binding method. Density functional theory. Crystal field. Magnetoelastic interaction. Discussion of the modern experimental methods to study the energies and wavefunctions of f-electrons.
Last update: T_KFES (21.05.2001)
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Request to finish the course is the successfull passing of oral examination. Last update: Mikšová Kateřina, Mgr. (12.05.2022)
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Ashcroft, Mermin, Solid State Physics Modern articles literature Last update: Diviš Martin, doc. RNDr., CSc. (13.05.2019)
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Electronic structure and tight binding method - introduction, discussion and application of the method. Model hamiltonians - selected types of model hamiltonians?- Hubbard, Anderson. Density functional theory - introduction, modern methods of electronic structure calculations of CM. Crystal field - introduction of the model hamiltonian, particular examples. Magnetoelastic coupling - discussion in the framework of the localized and itinerant electron models. Discussion of experimental methods of study of energies and wavefunctions of f-electrons - magnetization, susceptibility, specific heat, inelastic neutron scattering. The particular form of syllabus is possible to adjust with respect of research interest of listener.
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