Oxygen-vacancy tuning of magnetism in SrTi₀₇₅Fe₀₁₂₅Co₀₁₂₅O₃-[delta] perovskite
Author(s)
Opazo, M. A.; Ong, S. P.; Florez, J. M.; Vargas, Philip; Ross, Caroline A; Florez Uribe, Juan Manuel; ... Show more Show less
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We use density functional theory to calculate the structure, band-gap, and magnetic properties of oxygen-deficient SrTi_{1−x−y}Fe_{x}Co_{y}O_{3−δ} with x=y=0.125 and δ={0,0.125,0.25}. The valence and the high or low spin states of the Co and Fe ions, as well as the lattice distortion and the band gap, depend on the oxygen deficiency, on the locations of the vacancies, and on the direction of the Fe-Co axis. A charge redistribution that resembles a self-regulatory response lies behind the valence spin-state changes. Ferromagnetism dominates, and both the magnetization and the band gap are greatest at δ=0.125. This qualitatively mimics the previously reported magnetization measured for SrTiFeO_{3−δ}, which was maximum at an intermediate deposition pressure of oxygen.
Date issued
2019-01Department
Massachusetts Institute of Technology. Department of Materials Science and Engineering; Massachusetts Institute of Technology. Department of Mechanical EngineeringJournal
Physical Review Materials
Publisher
American Physical Society
Citation
Opazo, M. A., S. P. Ong, P. Vargas, C. A. Ross, and J. M. Florez. "Oxygen-vacancy tuning of magnetism in SrTi₀₇₅Fe₀₁₂₅Co₀₁₂₅O₃-[delta] perovskite." Physical Review Materials 3, 014404 (2019).
Version: Final published version
ISSN
2475-9953