Magnetic ordering in [Ln.sub.0.7][Sr.sub.0.3][Mn.sub.0.85][Sb.sub.0.15][O.sub.3]

Magnetic ordering in [Ln.sub.0.7][Sr.sub.0.3][Mn.sub.0.85][Sb.sub.0.15][O.sub.3]

The crystal structure and magnetic properties of stoichiometric compounds [Ln.sub.0.7][Sr.sub.0.3][Mn.sub.0.85][Sb.sub.0.15][O.sub.3], in which manganese ions are in a trivalent state, have been investigated. No cooperative orbital ordering has been found in the Ln = La composition, but structural p...

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Veröffentlicht in:Physics of the solid state 2015-06, p.1128
Hauptverfasser: Troyanchuk, I.O, Bushinsky, M.V, Karpinsky, D.V, Sikolenko, V.V, Frontzek, M, Efimov, V.V
Format: Artikel
Sprache:eng
Schlagworte:
Crystals
Ferromagnetism
Magnetic properties
Rare earth metals
Structure
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Zusammenfassung:The crystal structure and magnetic properties of stoichiometric compounds [Ln.sub.0.7][Sr.sub.0.3][Mn.sub.0.85][Sb.sub.0.15][O.sub.3], in which manganese ions are in a trivalent state, have been investigated. No cooperative orbital ordering has been found in the Ln = La composition, but structural parameters of the Ln = Nd composition indicate Jahn-Teller distortions. It has been shown that, as the ionic radius of lanthanide (Ln) decreases, structural distortions of the Mn[O.sub.6] octahedron increase and the ferromagnetic component weakens due to a decrease in hybridization of manganese and oxygen orbitals. An increase in the covalent component of the chemical bond along with the orbital disorder promotes an increase in the role of positive superexchange interactions [Mn.sup.3+]-O-[Mn.sup.3+].
ISSN:1063-7834
1090-6460
DOI:10.1134/S1063783415060323