Bulletin of the American Physical Society
APS March Meeting 2019
Volume 64, Number 2
Monday–Friday, March 4–8, 2019; Boston, Massachusetts
Session H11: Defects in Semiconductors -- Quantum Materials
2:30 PM–4:54 PM,
Tuesday, March 5, 2019
BCEC
Room: 152
Sponsoring
Units:
DMP DCOMP FIAP
Chair: Cyrus Dreyer, Stony Brook University
Abstract: H11.00009 : A self-consistent site-dependent DFT+U approach for defects in transition metal oxides
4:30 PM–4:42 PM
Presenter:
Chiara Ricca
(University of Bern)
Authors:
Chiara Ricca
(University of Bern)
Iurii Timrov
(Ecole polytechnique federale de Lausanne)
Matteo Cococcioni
(Ecole polytechnique federale de Lausanne)
Nicola Marzari
(Ecole polytechnique federale de Lausanne)
Ulrich Aschauer
(University of Bern)
We propose a self-consistent site-dependent (SCSD) DFT+U approach for calculations of defects in transition-metal oxides. Defect formation in these materials induces local perturbations in the chemical environment of Hubbard sites around the defect that may not be properly described by applying a global U value on all sites as done in conventional DFT+U.
Here, U is treated as an intrinsic response property of the material and computed from first principles using density-functional perturbation theory. SCSD U values are obtained starting from a DFT ground state by an iteration of perturbing all inequivalent Hubbard sites followed by geometry relaxation with the determined U values until convergence of the geometry and U. Changes in U due to excess charge localization and lattice relaxation in defective structures are hence properly accounted for.
After discussing the approach, we highlight some results, showing that U values depend on the distance of the Hubbard site from the defect, its coordination number, its oxidation state, and on the magnetic properties of the material. This site-dependence is particularly important in the case of semiconductors, where filled localized defect states may form in the band gap, and strongly influences all properties related to defect energetics.
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