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W2060830147 startingPage "137" @default.
W2060830147 abstract "Materials with strong electronic correlations are at the cutting edge of experimental and theoretical studies, capturing the attention of researchers for a great variety of interesting phenomena: metal–insulator, phase and magnetic spin transitions, `heavy fermion' systems, interplay between magnetic order and superconductivity, appearance and disappearance of local magnetic moments, and transport property anomalies. It is clear that the richness of physical phenomena for these compounds is a result of partially filled 3 d , 4 f or 5 f electron shells with local magnetic moments preserved in the solid state. Strong interactions of d and f electrons with each other and with itinerant electronic states of the material are responsible for its anomalous properties. Electronic structure calculations for strongly correlated materials should explicitly take into account Coulombic interactions between d or f electrons. Recent advances in this field are related to the development of the LDA+DMFT method, which combines local density approximation (LDA) with dynamical mean-field theory (DMFT) to account for electronic correlation effects. In recent years, LDA+DMFT has allowed the successful treatment not only of simple systems but also of complicated real compounds. Nowadays, the LDA+DMFT method is the state-of-the-art tool for investigating correlated metals and insulators, spin and metal–insulator transitions (MIT) in transition-metal compounds in paramagnetic and magnetically ordered phases." @default.
W2060830147 created "2016-06-24" @default.
W2060830147 creator A5015037114 @default.
W2060830147 creator A5073181407 @default.
W2060830147 date "2014-01-31" @default.
W2060830147 modified "2023-09-30" @default.
W2060830147 title "Investigation of real materials with strong electronic correlations by the LDA+DMFT method" @default.
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W2060830147 doi "https://doi.org/10.1107/s2053229613032312" @default.
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