Magnetic and electronic properties of complex oxides from first-principles

Hoffmann, Martin; Ernst, Arthur; Hergert, Wolfram; Antonov, Victor N.; Adeagbo, Waheed A.; Geilhufe, R. Matthias; Ben Hamed, Hichem

doi:10.1002/pssb.201900671

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Magnetic and electronic properties of complex oxides from first-principles

Hoffmann, M., Ernst, A., Hergert, W., Antonov, V. N., Adeagbo, W. A., Geilhufe, R. M., et al. (2020). Magnetic and electronic properties of complex oxides from first-principles. Physica Status Solidi B, 257(7): 1900671. doi:10.1002/pssb.201900671.

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Item Permalink: https://hdl.handle.net/21.11116/0000-0008-DF7C-3 Version Permalink: https://hdl.handle.net/21.11116/0000-0009-4F94-8

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Hoffmann, Martin¹, Author
Ernst, Arthur², Author
Hergert, Wolfram¹, Author
Antonov, Victor N.², Author
Adeagbo, Waheed A.¹, Author
Geilhufe, R. Matthias², Author
Ben Hamed, Hichem¹, Author

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1External Organizations, ou_persistent22
2Max Planck Institute of Microstructure Physics, Max Planck Society, ou_2415691

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Abstract: The theoretical treatment of complex oxide structures requires a combination of efficient methods to calculate structural, electronic, and magnetic properties, due to special challenges such as strong correlations and disorder. In terms of a multicode approach, this study combines various complementary first-principles methods based on density functional theory to exploit their specific strengths. Pseudopotential methods, known for giving reliable forces and total energies, are used for structural optimization. The optimized structure serves as input for the Green's function and linear muffin-tin orbital methods. Those methods are powerful for the calculation of magnetic ground states and spectroscopic properties. Within the multicode approach, disorder is investigated by means of the coherent potential approximation within a Green's function method or by construction of special quasirandom structures in the framework of the pseudopotential methods. Magnetic ground states and phase transitions are studied using an effective Heisenberg model treated in terms of a Monte Carlo method, where the magnetic exchange parameters are calculated from first-principles. The performance of the multicode approach is demonstrated with different examples, including defect formation, strained films, and surface properties.

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Dates: Published Online: 2020-01-23Date issued: 2020-07

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Identifiers: BibTex Citekey: P13898
DOI: 10.1002/pssb.201900671

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Title: Physica Status Solidi B

Abbreviation : Phys. Status Solidi B

Source Genre: Journal

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Publ. Info: Weinheim : Wiley-VCH

Pages: - Volume / Issue: 257 (7) Sequence Number: 1900671 Start / End Page: - Identifier: ISSN: 0370-1972
CoNE: https://pure.mpg.de/cone/journals/resource/958480240330