磁性铁锗中受挫电荷密度波和准远程键取向顺序

IF 15.7 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES

Nature Communications Pub Date : 2025-05-01 DOI:10.1038/s41467-025-58725-2

D. Subires, A. Kar, A. Korshunov, C. A. Fuller, Yi Jiang, H. Hu, D. Călugăru, C. McMonagle, C. Yi, S. Roychowdhury, W. Schnelle, C. Shekhar, J. Strempfer, A. Jana, I. Vobornik, J. Dai, M. Tallarida, D. Chernyshov, A. Bosak, C. Felser, B. Andrei Bernevig, S. Blanco-Canosa

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引用次数: 0

摘要

kagome晶格固有的受挫性质可以实现物质的奇异相，如量子自旋液体或自旋冰，以及kagome金属中的多q电荷密度波（CDW）。尽管努力了解驱动电子调制的机制，但其起源仍然未知，并被相互竞争的相互作用和交织的顺序所掩盖。本文在反铁磁kagome金属FeGe中发现了一个二聚化驱动的二维六边形电荷扩散前驱体，并证明了二聚化/非二聚化态的分数是连续相变的多q CDW的相关阶参量。TCDW <下传播矢量q = qM的过渡前电荷波动T & lt;T*(125 K)是各向异性的，因此具有准远程键取向顺序。平移对称性的破缺来自于各向异性扩散前体，类似于反铁磁三角形晶格的伊辛场景。临界散射的温度和动量依赖与CDW在液晶和瞬态中堆积的六相b相相似，并突出了拓扑缺陷介导的CDW在FeGe中的熔化的关键作用。

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Frustrated charge density wave and quasi-long-range bond-orientational order in the magnetic kagome FeGe

The intrinsic frustrated nature of a kagome lattice is amenable to the realization of exotic phases of matter, such as quantum spin liquids or spin ices, and the multiple-q charge density waves (CDW) in the kagome metals. Despite intense efforts to understand the mechanism driving the electronic modulations, its origin is still unknown and obscured by competing interactions and intertwined orders. Here, we identify a dimerization-driven 2D hexagonal charge-diffuse precursor in the antiferromagnetic kagome metal FeGe and demonstrate that the fraction of dimerized/undimerized states is the relevant order parameter of the multiple-q CDW of a continuous phase transition. The pretransitional charge fluctuations with propagation vector q = q_M at T_CDW < T < T^*(125 K) are anisotropic, hence holding a quasi-long-range bond-orientational order. The broken translational symmetry emerges from the anisotropic diffuse precursor, akin to the Ising scenario of antiferromagnetic triangular lattices. The temperature and momentum dependence of the critical scattering show parallels to the stacked hexatic B-phases reported in liquid crystals and transient states of CDWs and highlight the key role of the topological defect-mediated melting of the CDW in FeGe.

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来源期刊

Nature Communications Biological Science Disciplines-

CiteScore

24.90

自引率

2.40%

发文量

6928

审稿时长

3.7 months

期刊介绍： Nature Communications, an open-access journal, publishes high-quality research spanning all areas of the natural sciences. Papers featured in the journal showcase significant advances relevant to specialists in each respective field. With a 2-year impact factor of 16.6 (2022) and a median time of 8 days from submission to the first editorial decision, Nature Communications is committed to rapid dissemination of research findings. As a multidisciplinary journal, it welcomes contributions from biological, health, physical, chemical, Earth, social, mathematical, applied, and engineering sciences, aiming to highlight important breakthroughs within each domain.