Tuning the magnetic properties in MPS3 (M = Mn, Fe, and Ni) by proximity-induced Dzyaloshinskii Moriya interactions

arXiv - PHYS - Atomic and Molecular Clusters Pub Date : 2023-07-25 DOI:arxiv-2307.13400

Suvodeep Paul, Devesh Negi, Saswata Talukdar, Saheb Karak, Shalini Badola, Bommareddy Poojitha, Manasi Mandal, Sourav Marik, R. P. Singh, Nashra Pistawala, Luminita Harnagea, Aksa Thomas, Ajay Soni, Subhro Bhattacharjee, Surajit Saha

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Abstract

Tailoring the quantum many-body interactions in layered materials through appropriate heterostructure engineering can result in emergent properties that are absent in the constituent materials thus promising potential future applications. In this article, we have demonstrated controlling the otherwise robust magnetic properties of transition metal phosphorus trisulphides (Mn/Fe/NiPS3) in their heterostructures with Weyl semimetallic MoTe2 which can be attributed to the Dzyaloshinskii Moriya (DM) interactions at the interface of the two different layered materials. While the DM interaction is known to scale with the strength of the spin-orbit coupling (SOC), we also demonstrate here that the effect of DM interaction strongly varies with the spin orientation/dimensionality of the magnetic layer and the low-energy electronic density of state of the spin-orbit coupled layer. The observations are further supported by a series of experiments on heterostructures with a variety of substrates/underlayers hosting variable SOC and electronic density of states.

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邻域诱导Dzyaloshinskii Moriya相互作用对MPS3 (M = Mn, Fe和Ni)磁性能的调节

通过适当的异质结构工程来剪裁层状材料中的量子多体相互作用可以产生组成材料中不存在的新特性，从而有潜在的未来应用前景。在本文中，我们证明了用Weyl半金属MoTe2控制过渡金属三硫化磷(Mn/Fe/NiPS3)异质结构中的磁性能，这可归因于两种不同层状材料界面上的Dzyaloshinskii Moriya (DM)相互作用。虽然已知DM相互作用与自旋轨道耦合(SOC)的强度成比例，但我们也在这里证明了DM相互作用的影响与磁层的自旋取向/维数和自旋轨道耦合层的低能电子态密度密切相关。这些观察结果得到了一系列异质结构实验的进一步支持，这些异质结构具有各种衬底/衬底承载可变SOC和电子态密度。

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arXiv - PHYS - Atomic and Molecular Clusters

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