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Anisotropy of the magnetization and Faraday rotation in paramagnetic erbium gallium garnet under high magnetic field

机译:强磁场下para磁镓石榴石的磁化和法拉第旋转各向异性

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摘要

The anisotropy of the magnetization and Faraday rotation in paramagnetic erbium gallium garnet (ErGaG) is reported. Generally speaking, the exchange interactions between rare-earth ions can be neglected in ferrimagnetic rare-earth garnet. It is pointed out that the exchange interaction is a non-negligible factor in the magnetic and MO properties in paramagnetic ErGaG. Meanwhile, the exchange interaction presents anisotropic property and demagnetizing effect. In addition, we conclude that the Faraday rotation in paramagnetic media under high magnetic field is determined by the magnetization as well as the applied magnetic field. Furthermore, the Faraday rotations are qualitatively simulated at 633 and 550 nm in ErGaG where a complicated temperature dependence of the exchange interaction is introduced. The theoretical results are compared with the experimental data measured by Guillot et al. (C) 2005 Elsevier Ltd. All rights reserved.
机译:报告了顺磁性magnetic镓石榴石(ErGaG)中磁化和法拉第旋转的各向异性。一般而言,在亚铁磁性稀土石榴石中,可以忽略稀土离子之间的交换相互作用。指出交换相互作用是顺磁性ErGaG的磁性和MO性质的不可忽略的因素。同时,交换相互作用表现出各向异性和消磁作用。此外,我们得出的结论是,在强磁场下顺磁性介质中的法拉第旋转由磁化强度以及所施加的磁场决定。此外,在ErGaG中在633和550 nm处定性地模拟了法拉第旋转,其中引入了复杂的交换相互作用的温度依赖性。将理论结果与Guillot等人测量的实验数据进行比较。 (C)2005 Elsevier Ltd.保留所有权利。

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