1. Scaffolding, Ladders, Chains, and Rare Ferrimagnetism in Intermetallic Borides: Electronic Structure Calculations and Magnetic Ordering.
- Author
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Brgoch, Jakoah, Goerens, Christian, Fokwa, Boniface P. T., and Miller, Gordon J.
- Subjects
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ELECTRONIC structure , *BORIDES , *INTERMETALLIC compounds , *FERRIMAGNETISM , *ANTIFERROMAGNETISM , *CONDUCTION electrons - Abstract
The electronic structures of "Ti9-nFe2+nRu18B8" (n= 0, 0.5, 1, 2, 3); in connection to the recently synthesized Ti9-nFe2+n-RU18B8(n = 1, 2), have been investigated and analyzed using LSDA tight-binding calculations to elucidate the distribution of Fe and Ti, to determine the maximum Fe content, and to explore possible magnetic structures to interpret experimental magnetization results. Tbrough a combination of calculations on specific models and using tbe rigid band approximation, which is validated by the DOS curves for "T9-nFe2+nRu18B8" (n = 0, 0.5, 1, 2,3), mixing of Fe and Ti is anticipated at both tbe 2b- and 4h-chain sites. The model "Ti8.5Fe2.5Ru18B8" (n = 0.5) revealed that both Brewer-type Ti-Ru interactions as well as ligand field splitting ofthe Fe 3d orbitals regulated the observed valence electron counts between 220 and 228 electrons/formula unit. Finally, models of magnetic structures were created using "Ti6Fe5Ru18B8" (n = 3). A rigid band analysis of tbe LSDA DOS curves concluded preferred ferromagnetic ordering at low Fe content (n ⩽ 0.75) and ferrimagnetic ordering at higher Fe content (n > 0.75). Ferrimagnetism arises from antiferromagnetic exchange coupling in the scaffold of Fel-ladder and 4h-chain sites. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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