Dipole matrix element approach versus Peierls approximation for optical conductivity
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In this article, the authors developed a computational approach for calculating the optical conductivity in the augmented plane wave basis set of Wien2K and apply it for thoroughly comparing the full dipole matrix element calculation and the Peierls approximation.Abstract:
We develop a computational approach for calculating the optical conductivity in the augmented plane wave basis set of Wien2K and apply it for thoroughly comparing the full dipole matrix element calculation and the Peierls approximation. The results for SrVO3 and V2O3 show that the Peierls approximation, which is commonly used in model calculations, works well for optical transitions between the d orbitals. In a typical transition metal oxide, these transitions are solely responsible for the optical conductivity at low frequencies. The Peierls approximation does not work, on the other hand, for optical transitions between p- and d-orbitals which usually became important at frequencies of a few eVsread more
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References
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The α → γ Transition in Ce: A Theoretical View from Optical Spectroscopy
TL;DR: Using a novel approach to calculate optical properties of strongly correlated systems, it is found that the Kondo collapse model, involving both the f and the spd electrons, describes the optical data better than a Mott transition picture involving the f electrons only.
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Signatures of electronic correlations in iron silicide
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TL;DR: In this article, a joint implementation of dynamical-mean-field theory (DMFT) with the pseudopotential plane-wave approach via Wannier functions is presented for the determination of the electronic properties of strongly correlated materials.
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TL;DR: It is shown that as a result of the reduced coordination number of surface atoms correlation effects are stronger at the surface than in the bulk, in agreement with experiment.
Journal ArticleDOI
Dynamical Screening in Correlated Electron Materials
Philipp Werner,Andrew J. Millis +1 more
TL;DR: An efficient method for incorporating a dynamically screened interaction into the single-site dynamical mean field approximation widely used to treat correlation physics is presented.