30 research outputs found
Observation of domain wall bimerons in chiral magnets
Topological defects embedded in or combined with domain walls have been
proposed in various systems, some of which are referred to as domain wall
skyrmions or domain wall bimerons. However, the experimental observation of
such topological defects remains an ongoing challenge. Here, using Lorentz
transmission electron microscopy, we report the experimental discovery of
domain wall bimerons in chiral magnet Co-Zn-Mn(110) thin films. By applying a
magnetic field, multidomain structures develop, and simultaneously, chained and
isolated bimerons arise as the localized state between the domains with the
opposite in-plane components of net magnetization. The multidomain formation is
attributed to magnetic anisotropy and dipolar interaction, and domain wall
bimerons are stabilized by the Dzyaloshinskii-Moriya interaction. In addition,
micromagnetic simulations show that domain wall bimerons appear for a wide
range of conditions in chiral magnets with cubic magnetic anisotropy. Our
results promote further study in various fields of physics.Comment: 30 pages, 10 figures (including Supplementary Materials
Planar defect in approximant : the case of Cu-Al-Sc alloy
The {110} planar defect formed in the Cu-Al-Sc 1/1 approximant has been studied by means of electron microscopy and 6-dimensional analysis. As the displacement vector of the planar defect, 1/2 has been proposed. Here tau denotes the golden ratio. This vector corresponds to a 6-dimensional translation of type [111000] and also to the c-linkage of Tsai-type clusters. An atomic structure model of the planar defect has been constructed referring to the structural properties of the regular 1/1 approximant; namely truncated triacontahedron framework and embedded clusters. This structural model was validated by the agreement between the observed and simulated HAADF-STEM images. Models of the intersection of two planar defects and the triple point, where three planar defects intersect, were also proposed. All local structures formed at these defects are understood by the concept of so-called canonical cell tiling
The Bibliographic studies on Scolopendra subspinipes mutilans L. Koch
Objective: Through the literature on the effect of Scolopendra subspinipes mutilans L. Koch, we are finding out the clinical possibility and revealing the more effective to untractable disease.
Method: We investigated the literatures of Oriental Medicine and experimental reports about Scolopendra subspinipes mutilans L. Koch.
Results: 1.The taste of Scolopendra subspinipes mutilans L. Koch is hot, wann and toxic, and the effect is dispelling wind, spasmolytic action and detoxication so it has been used for C.V.A, facial palsy, numbness of hands and feet, wounds and arthritis.
2. A toxic constituent of Scolopendra subspinipes mutilans L. Koch is mainly located in the 1st limbs, and we can prevent toxic symptoms, if taken a dosage moderately.
3. The pharmacological action of Scolopendra subspinipes mutilans L. Koch is anti-convulsive action, analgesic action, lowering blood pressure, anti-inflammatory action, anti-tumor action and microbe inhibition. On the study of Scolopendra subspinipes mutilans L. Koch, we thought it is effective to intractable disease, and it may be needed variable studies on toxicity and clinical effects