Influence of f-d exchange interaction on the properties of nanoscale structures based on Fe, Co, Ni metals and rem oxides. A review

A. Kasumov, A. Dmitriev, K. A. Korotko, V. Karavaeva, K. O. Vyshnevska, A. Ievtushenko
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Abstract

A review of the works of the authors published in the period 2009–2022 and devoted to the study of the properties of nanosized structures containing contacting layers of Fe, Co, Ni, Fe2O3 / REM (Rare Earth Metal) oxide is carried out. The technology for the creation and structural features of these nanostructures are also considered. Physicochemical phenomena in the interface of contacting layers are very multidisciplinary. This is a consequence of their dependence on various conditions, primarily on the modes of technologies for their production and the properties of the initial components. The problem becomes much more complicated when studying magnetic nanostructures. To study effectively the properties of layered nanostructures containing ferromagnetic films, we used magnetic research methods. Using the EPR method, it has been found that between atoms with unfilled f- and d-electron sub-shells, which are part of the contacting layers, an f-d exchange interaction occurs, which orders the magnetic structure of the ferromagnetic layers. Using the method of the anomalous Hall effect, it is shown that the ordering of the magnetic structure leads to an increase in their magnetization. The enhancement of the galvanomagnetic properties in the Fe3O4/REМ оxide/Fe3O4 structures shows that the exchange interaction can have both f-d and d-d character. And this, in turn, leads to an increase in magnetization-dependent properties, such as galvanomagnetic, magneto-optical, and current-voltage properties. This can be used in nanotechnologies to enhance the above properties without energy consumption and the use of amplifying equipment.
f-d交换作用对Fe, Co, Ni和rem氧化物纳米结构性能的影响。回顾
本文综述了作者在2009-2022年间发表的关于含Fe、Co、Ni、Fe2O3 / REM(稀土金属)氧化物接触层的纳米结构性能的研究成果。本文还讨论了这些纳米结构的制造技术和结构特征。接触层界面的物理化学现象是非常多学科的。这是它们依赖于各种条件的结果,主要是依赖于它们的生产技术模式和初始部件的特性。当研究磁性纳米结构时,这个问题变得更加复杂。为了有效地研究含铁磁薄膜的层状纳米结构的性质,我们采用了磁学研究方法。利用EPR方法发现,在作为接触层一部分的f-和d-电子亚壳层的原子之间,发生了f-d交换相互作用,从而使铁磁层的磁性结构有序。利用反常霍尔效应的方法,证明了磁性结构的有序会导致磁化强度的增加。Fe3O4/REМ /Fe3O4结构的磁特性增强表明,交换相互作用可以同时具有f-d和d-d特征。而这反过来又会导致磁化相关特性的增加,例如流磁、磁光和电流-电压特性。这可以用于纳米技术,在不消耗能量和使用放大设备的情况下增强上述特性。
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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