AI Article Synopsis
- Present day computing allows for advanced studies using density functional theory to investigate complex physical and chemical issues, typically requiring large supercells for accurate modeling.
- However, using supercells results in small Brillouin zones that complicate the analysis of electronic properties due to folded electronic states.
- The authors introduce a new unfolding scheme embedded in the Vienna Simulation Package (VASP) that simplifies this process, enabling easier computation of band structures, Fermi surfaces, and spectral functions while being applied to various complex scenarios, like the influence of doping in superconductors and interactions on material surfaces.
Article Abstract
Present day computing facilities allow for first-principles density functional theory studies of complex physical and chemical phenomena. Often such calculations are linked to large supercells to adequately model the desired property. However, supercells are associated with small Brillouin zones in the reciprocal space, leading to folded electronic eigenstates that make the analysis and interpretation extremely challenging. Various techniques have been proposed and developed to reconstruct the electronic band structures of super cells unfolded into the reciprocal space of an ideal primitive cell. Here we propose an unfolding scheme embedded directly in the Vienna Simulation Package (VASP) that requires modest computational resources and allows for an automatized mapping from the reciprocal space of the supercell to the primitive cell Brillouin zone. This algorithm can compute band structures, Fermi surfaces, and spectral functions by using an integrated postprocessing tool (bands4vasp). Here the method is applied to a selected variety of complex physical situations: the effect of doping on the band dispersion in the BaFeRu As superconductor, the interaction between adsorbates and polaronic states on the TiO(110) surface, and the band splitting induced by noncollinear spin fluctuations in EuCdAs.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8282185 | PMC |
| http://dx.doi.org/10.1021/acs.jpcc.1c02318 | DOI Listing |
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