层状铂二硒化物中缺陷诱导的4p磁性

P. Manchanda, Pankaj Kumar, P. Dev
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引用次数: 1

摘要

二硒化铂(PtSe$_{2}$)是最近发现的一种外在磁体,其磁性归因于pt空位的存在。这些缺陷的主体材料本身显示出有趣的结构和电子特性,其中一些源于其层之间异常强烈的相互作用。迄今为止,尚不清楚PtSe$_2$的独特内在性质如何影响其感应磁性。在这项理论工作中,我们证明了PtSe$_{2}$薄膜中的缺陷感应磁性对:(i)层厚度(ii)缺陷密度和(iii)衬底选择高度敏感。这些不同的因素极大地改变了所有的磁性,包括局部矩的大小、耦合的强度,甚至是矩之间耦合的性质。我们进一步表明,强层间相互作用是理解这些效应的关键。更好地了解对磁性的各种影响,可以实现基于pt的二硫族化合物的磁性能的可控调谐,这可以用于设计磁电和磁光应用的新型器件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Defect-induced 4p -magnetism in layered platinum diselenide
Platinum diselenide (PtSe$_{2}$) is a recently-discovered extrinsic magnet, with its magnetism attributed to the presence of Pt-vacancies. The host material to these defects itself displays interesting structural and electronic properties, some of which stem from an unusually strong interaction between its layers. To date, it is not clear how the unique intrinsic properties of PtSe$_2$ will affect its induced magnetism. In this theoretical work, we show that the defect-induced magnetism in PtSe$_{2}$ thin films is highly sensitive to: (i) the layer-thickness (ii) defect density, and (iii) substrate choice. These different factors dramatically modify all magnetic properties, including the magnitude of local moments, strength of the coupling, and even nature of the coupling between the moments. We further show that the strong inter-layer interactions are key to understanding these effects. A better understanding of the various influences on magnetism, can enable controllable tuning of the magnetic properties in Pt-based dichalcogenides, which can be used to design novel devices for magnetoelectric and magneto-optic applications.
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