Charge-transfer effect in hard x-ray 1s and 2p photoemission spectra: LDA+DMFT and cluster-model analysis
Publication date
2019-08-26
Authors
Ghiasi Kabiri, Mahnaz
Hariki, Atsushi
Winder, Mathias
Kuneš, Jan
Regoutz, Anna
Lee, Tien Lin
Hu, Yongfeng
Rueff, Jean Pascal
de Groot, Frank
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Document Type
Article
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Abstract
We study 1s and 2p hard x-ray photoemission spectra (XPS) in a series of late transition metal oxides: Fe2O3 (3d5), FeTiO3 (3d6), CoO (3d7), and NiO (3d8). The experimental spectra are analyzed with two theoretical approaches: MO6 cluster model and local density approximation (LDA) + dynamical mean-field theory (DMFT). Owing to the absence of the core-valence multiplets and spin-orbit coupling, 1s XPS is found to be a sensitive probe of chemical bonding and nonlocal charge-transfer screening, providing complementary information to 2p XPS. The 1s XPS spectra are used to assess the accuracy of the ab initio LDA+DMFT approach, developed recently to study the material-specific charge-transfer effects in core-level XPS.
Keywords
Electronic, Optical and Magnetic Materials, Condensed Matter Physics
Citation
Ghiasi, M, Hariki, A, Winder, M, Kuneš, J, Regoutz, A, Lee, T L, Hu, Y, Rueff, J P & De Groot, F M F 2019, 'Charge-transfer effect in hard x-ray 1s and 2p photoemission spectra : LDA+DMFT and cluster-model analysis', Physical Review B, vol. 100, no. 7, 075146. https://doi.org/10.1103/PhysRevB.100.075146