Анизотропия и медленная релаксация аномального эффекта Холла в синтетических ферримагнетиках GdFeCo/Ir/GdFeCo

Физика твердого тела Pub Date : 2023-01-01 DOI:10.21883/ftt.2023.01.53915.473

М.В. Бахметьев, А.Д. Таланцев, О. В. Коплак, Роман Борисович Моргунов

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Abstract

In synthetic ferrimagnets with perpendicular anisotropy GdFeCo/Ir/GdFeCo, the dependence of the hysteresis loops of the anomalous Hall resistance and the characteristics of the loops on the angle between the magnetic field and the plane of the sample are analyzed. The part of the anomalous Hall resistance corresponding to the spin-orbit torque has been identified. The field dependences of the resistance are sensitive to switching between the magnetic states of the two-layer ferrimagnet and they reproduce the shapes of the magnetization hysteresis loops, calculated with the interlayer exchange interaction, crystal anisotropy, and Zeeman energies at different angles between the field and sample. A slow (~30 min) magnetic relaxation of resistivity hysteresis after reorientation of the sample in magnetic field was found. Specific domain dynamics inherent in two-layer samples was revealed by Kerr microscopy. It was found that slow restoration of the resistivity hysteresis loop is due to domain propagation.

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GdFeCo/Ir/GdFeCo合成铁磁中的异常霍尔效应的各向异性和缓慢放松

在具有垂直各向异性的合成铁磁体GdFeCo/Ir/GdFeCo中，分析了异常霍尔电阻的磁滞回线和磁滞回线特性与样品磁场与表面夹角的关系。确定了与自旋轨道转矩相对应的异常霍尔电阻部分。利用层间交换相互作用、晶体各向异性和场与样品之间不同角度的塞曼能量计算，电阻的场依赖性对两层铁磁体的磁态之间的切换很敏感，它们再现了磁化磁滞回线的形状。在磁场中重新定向后，样品的电阻率磁滞出现缓慢(~30 min)的磁松弛。克尔显微镜显示了两层样品中固有的特定域动力学。发现电阻率磁滞回线恢复缓慢是由畴传播引起的。

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