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arxiv: 2209.04560 · v1 · pith:55C35SBUnew · submitted 2022-09-09 · ❄️ cond-mat.str-el · cond-mat.mtrl-sci

Thermal cycling induced alteration of the stacking order and spin-flip in the room temperature van der Waals magnet Fe₅GeTe₂

classification ❄️ cond-mat.str-el cond-mat.mtrl-sci
keywords f5gtmagneticordercyclingdeltapropertiesstackingtext
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The magnetic properties of the quasi-two-dimensional van der Waals magnet Fe$_{5-\delta}$GeTe$_2$ (F5GT), which has a high ferromagnetic ordering temperature $T_{\text{C}}$ $\sim$ 315 K, remains to be better understood. It has been demonstrated that the magnetization of F5GT is sensitive to both the Fe deficiency ${\delta}$ and the thermal cycling history. Here, we investigate the structural and magnetic properties of F5GT with a minimal Fe deficiency ($|{\delta}|$ $\le$ 0.1), utilizing combined x-ray and neutron scattering techniques. Our study reveals that the quenched F5GT single crystals experience an irreversible, first-order transition at $T_{\text{S}}$ $\sim$ 110 K upon first cooling, where the stacking order partly or entirely converts from ABC-stacking to AA-stacking order. Importantly, the magnetic properties, including the magnetic moment direction and the enhanced $T_{\text{C}}$ after the thermal cycling, are intimately related to the alteration of the stacking order. Our work highlights the significant influence of the lattice symmetry to the magnetism in F5GT.

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