Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
Initialising ...
鈴木 誠也; 根本 善弘*; 椎木 菜摘*; 中山 佳子*; 竹口 雅樹*
Annalen der Physik, 535(9), p.2300122_1 - 2300122_12, 2023/09
被引用回数:0 パーセンタイル:0(Physics, Multidisciplinary)Germanene is a two-dimensional (2D) germanium (Ge) analogous of graphene, and its unique topological properties are expected to be a material for next-generation electronics. However, no germanene electronic devices have yet been reported. One of the reasons for this is that germanene is easily oxidized in air due to its lack of chemical stability. Therefore, growing germanene at solid interfaces where it is not oxidized is one of the key ideas for realizing electronic devices based on germanene. In this study, the behavior of Ge at the solid interface at high temperatures was observed by transmission electron microscopy (TEM). To achieve such in situ heating TEM observation, we fabricated a graphene/Ge/graphene encapsulated structure. In situ heating TEM experiments revealed that Ge like droplets moved and coalesced with other Ge droplets, indicating that Ge remained as a liquid phase between graphene layers at temperatures higher than the Ge melting point.
山本 慧; 前川 禎通*
Annalen der Physik, 11 Pages, 2023/00
被引用回数:0 パーセンタイル:0(Physics, Multidisciplinary)We derive a general expression for the magnetostatic field generated by mechanical deformations to a ferromagnetic material in the continuum description. Linearization with respect to the displacement vector is shown to be well defined. To demonstrate the use of the formulation, we discuss two examples. Firstly, a complete derivation of the magneto-rotation coupling for a uniformly magnetized film is given. Secondly, the lowest asymmetric mode of Lamb waves propagating through a magnetic vortex is shown to induce in-plane magnetostatic field localized around the vortex core.
荒木 康史
Annalen der Physik, 532(2), p.1900287_1 - 1900287_16, 2020/02
被引用回数:37 パーセンタイル:88.41(Physics, Multidisciplinary)Recent theoretical and experimental attempts have been successful in finding magnetic Weyl semimetal phases, which show both nodal-point structure in the electronic bands and magnetic orders. Beyond uniform ferromagnetic or antiferromagnetic orders, nonuniform magnetic textures, such as domain walls and skyrmions, may even more enrich the properties of the Weyl electrons in such materials. This article gives a topical review on interplay between Weyl electrons and magnetic textures in those magnetic Weyl semimetals. The basics of magnetic textures in non-topological magnetic metals are reviewed first, and then the effect of magnetic textures in Weyl semimetals is discussed, regarding the recent theoretical and experimental progress therein. The idea of the fictitious "axial gauge fields" is pointed out, which effectively describes the effect of magnetic textures on the Weyl electrons and can well account for the properties of the electrons localized around magnetic domain walls.