Magnetoelectric Effect in the Nd3Ga5SiO14 Paramagnet

IF 1.4 4区物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY

JETP Letters Pub Date : 2025-04-01 DOI:10.1134/S0021364024605244

A. A. Mukhin, V. Yu. Ivanov, A. M. Kuzmenko, A. Yu. Tikhanovskii, B. V. Mill

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Abstract

The electric polarization induced by a magnetic field H in Nd₃Ga₅SiO₁₄ noncentrosymmetric trigonal paramagnetic single crystals has been detected. In low fields, it is quadratic in H and its components in the basal ab plane are described by two magnetoelectric susceptibilities α₁ and α₂. The polarization along the trigonal c axis is manifested only starting from the fourth-order terms ~H⁴. In high magnetic fields at low temperatures, when the magnetic moments of Nd³⁺ are saturated, the polarization qualitatively changes its field dependence to nearly quasilinear for all crystallographic directions and increases strongly (up to 250 μC/m² at 5 T along the c axis). The effects observed in Nd₃Ga₅SiO₁₄ have been quantitatively described using the spin Hamiltonian of the Nd³⁺ ion in local low-symmetric (C₂) sites taking into account the magnetoelectric interaction allowed by symmetry. Magnetoelectric invariants nonlinear in H that make it possible to describe the observed the field, temperature, and angular dependences of the polarization using several magnetoelectric parameters have been constructed in terms of the local susceptibilities of Nd³⁺ ions taking into account the nonequivalence of their magnetization.

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Nd3Ga5SiO14顺磁体中的磁电效应

研究了磁场H对Nd3Ga5SiO14非中心对称三角顺磁单晶产生的电极化现象。在低场中，它在H上是二次的，其在ab平面上的分量由α1和α2两个磁电磁化率来描述。沿三角形c轴的偏振只从四阶项~H4开始表现出来。在低温强磁场中，当Nd3+的磁矩饱和时，极化在所有晶体方向上的场依赖关系定性地变为接近拟线性，并且在5 T时沿c轴的极化关系强烈增加（高达250 μC/m2）。考虑到对称性所允许的磁电相互作用，利用Nd3+离子在局部低对称（C2）位置的自旋哈密顿量，对Nd3Ga5SiO14中观察到的效应进行了定量描述。利用Nd3+离子的局部磁化率，考虑到其磁化强度的非等效性，构建了H中的非线性磁电不变量，使得用几个磁电参数来描述观测到的场、温度和极化角依赖性成为可能。

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来源期刊

JETP Letters 物理-物理：综合

CiteScore

2.40

自引率

30.80%

发文量

164

审稿时长

3-6 weeks

期刊介绍： All topics of experimental and theoretical physics including gravitation, field theory, elementary particles and nuclei, plasma, nonlinear phenomena, condensed matter, superconductivity, superfluidity, lasers, and surfaces.