Klaus Koepernik scite author profile

The widespread popularity of density functional theory has given rise to an extensive range of dedicated codes for predicting molecular and crystalline properties. However, each code implements the formalism in a different way, raising questions about the reproducibility of such predictions. We report the results of a community-wide effort that compared 15 solid-state codes, using 40 different potentials or basis set types, to assess the quality of the Perdew-Burke-Ernzerhof equations of state for 71 elemental crystals. We conclude that predictions from recent codes and pseudopotentials agree very well, with pairwise differences that are comparable to those between different high-precision experiments. Older methods, however, have less precise agreement. Our benchmark provides a framework for users and developers to document the precision of new applications and methodological improvements

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Problems with reconciling density functional theory calculations with experiment in ferropnictides

Mazin

et al. 2008

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Tight-binding models for the iron-based superconductors

Eschrig¹,

Koepernik²

2009

Phys. Rev. B

250

327

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The rich novel materials class of iron based superconductors turned out to exhibit a very complex electronic structure, despite of the simplicity of their crystal structures. For various approaches to study the instability against magnetic order or superconductivity, a real space description of the electronic structure is required. Here, the bonding situation and the orbital structure of the electronic state are analyzed and minimum tight-binding models quantitatively correctly describing the low-energy electronic structure are provided.

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Klaus Koepernik

Full-potential nonorthogonal local-orbital minimum-basis band-structure scheme

Reproducibility in density functional theory calculations of solids

Problems with reconciling density functional theory calculations with experiment in ferropnictides

Tight-binding models for the iron-based superconductors

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