六铁氧体的铁磁电相:群论分析

V. B. Shirokov, A. Razumnaya, A. Mikheykin
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引用次数: 0

摘要

提出了一种设计和裁剪磁电和多铁性六铁氧体的对称制导方法。对六方铁氧体的磁铁电结构进行了群论研究。结果适用于M型、W型和z型六铁素体。结果表明,磁结构在主磁相中不可能共线,磁矩方向沿六角形轴方向。磁性亚晶格显示,其中阳离子取代应导致形成多铁态。建立了六方铁电铁磁体的热力学模型,并观察到了等结构相变。
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Ferromagnetoelectric phases of hexaferrites: a group-theoretical analysis
A symmetry-guided approach for designing and tailoring magnetoelectric and multiferroic hexaferrites is proposed. A group-theoretical study of the magnetoferroelectric structures of a hexagonal ferrite was carried out. The results were applied to M-, W- and Z-type hexaferrites. It is shown that the magnetic structure cannot be collinear in the main magnetic phase, with the direction of the magnetic moment along the hexagonal axis. Magnetic sublattices are shown in which cation substitution should lead to the formation of a multiferroic state. A thermodynamic model of a hexagonal ferroelectric ferrimagnet was constructed, in which isostructural phase transitions were observed.
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