Magnetic and Magnetoelectric Properties of Rare Earth Molybdates

Physics Research International Pub Date : 2012-05-09 DOI:10.1155/2012/276348

B. K. Ponomarev, A. Zhukov

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引用次数: 9

Abstract

We present results on ferroelectric, magnetic, magneto-optical properties and magnetoelectric effect of rare earth molybdates (gadolinium molybdate, GMO, and terbium molybdate, TMO, and samarium molybdate, SMO), belonging to a new type of ferroelectrics predicted by Levanyuk and Sannikov. While cooling the tetragonal β-phase becomes unstable with respect to two degenerate modes of lattice vibrations. The β-β′ transition is induced by this instability. The spontaneous polarization appears as a by-product of the lattice transformation. The electric order in TMO is of antiferroelectric type. Ferroelectric and ferroelastic GMO and TMO at room temperature are paramagnets. At low temperatures GMO and TMO are antiferromagnetic with the Neel temperatures K (GMO) and K (TMO). TMO shows the spontaneous destruction at 40 kOe magnetic field. Temperature and field dependences of the magnetization in TMO are well described by the magnetism theory of singlets at 4.2 K ≤ T ≤ 30 K. The magnetoelectric effect in SMO, GMO and TMO, the anisotropy of magnetoelectric effect in TMO at T = (1.8–4.2) K, the Zeeman effect in TMO, the inversion of the electric polarization induced by the laser beam are discussed. The correlation between the magnetic moment of rare earth ion and the magnetoelectric effect value is predicted. The giant fluctuations of the acoustic resonance peak intensity near the Curie point are observed.

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稀土钼酸盐的磁性和磁电性质

本文介绍了稀土钼酸盐(钼酸钆，GMO，钼酸铽，TMO，钼酸钐，SMO)的铁电性，磁性，磁光性质和磁电效应的研究结果，属于Levanyuk和Sannikov预测的一种新型铁电体。当冷却时，四方β相相对于晶格振动的两种简并模式变得不稳定。β-β′跃迁是由这种不稳定性引起的。自发极化是晶格变换的副产物。TMO中的电序为反铁电型。室温下的铁电性和铁弹性GMO和TMO是顺磁体。在低温下，GMO和TMO是反铁磁性的，尼尔温度为K (GMO)和K (TMO)。TMO显示在40koe磁场下的自发破坏。在4.2 K≤T≤30 K时，单线态的磁性理论很好地描述了TMO中磁化强度与温度和场的关系。讨论了SMO、GMO和TMO的磁电效应，TMO在T = (1.8 ~ 4.2) K时磁电效应的各向异性，TMO中的塞曼效应，激光束诱导电极化的反转。预测了稀土离子的磁矩与磁电效应值的关系。在居里点附近观察到声共振峰强度的巨大波动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Physics Research International

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