观察铁/铁(111)中不相称磁纹理的滑动法森模式

IF 5.4 1区物理与天体物理 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

npj Quantum Materials Pub Date : 2024-07-11 DOI:10.1038/s41535-024-00664-0

Hung-Hsiang Yang, Louise Desplat, Volodymyr P. Kravchuk, Marie Hervé, Timofey Balashov, Simon Gerber, Markus Garst, Bertrand Dupé, Wulf Wulfhekel

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引用次数: 0

摘要

在铱 (111) 表面的单层铁（Fe/Ir(111)）中形成的纳米磁性纹理是空间调制的，并且相对于晶体学周期而言是单轴不对称的。因此，低能磁激发有望对应于纹理沿不对称方向的滑动，即一种法森模式，我们通过原子自旋模拟明确证实了这一点。利用扫描隧道显微镜（STM），我们成功地在实验中观察到了这种法森模式。它可以被 STM 针尖激发，从而导致隧道电流中出现随机电报噪声，我们将其归因于样品中存在无序导致的法森电势中存在两个极小值。这为在更洁净的样品中出现浮相提供了前景，并有可能在外部控制参数的作用下出现相称-不相称的转变。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Observation of the sliding phason mode of the incommensurate magnetic texture in Fe/Ir(111)

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Observation of the sliding phason mode of the incommensurate magnetic texture in Fe/Ir(111)

The nanoscopic magnetic texture forming in a monolayer of iron on the (111) surface of iridium, Fe/Ir(111), is spatially modulated and uniaxially incommensurate with respect to the crystallographic periodicities. As a consequence, a low-energy magnetic excitation is expected that corresponds to the sliding of the texture along the incommensurate direction, i.e., a phason mode, which we explicitly confirm with atomistic spin simulations. Using scanning tunneling microscopy (STM), we succeed to observe this phason mode experimentally. It can be excited by the STM tip, which leads to a random telegraph noise in the tunneling current that we attribute to the presence of two minima in the phason potential due to the presence of disorder in our sample. This provides the prospect of a floating phase in cleaner samples and, potentially, a commensurate-incommensurate transition as a function of external control parameters.

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来源期刊

npj Quantum Materials Materials Science-Electronic, Optical and Magnetic Materials

CiteScore

10.60

自引率

3.50%

发文量

107

审稿时长

6 weeks

期刊介绍： npj Quantum Materials is an open access journal that publishes works that significantly advance the understanding of quantum materials, including their fundamental properties, fabrication and applications.