Indexing Topological Numbers on Images by Transferring Chiral Magnetic Textures

IF 6.4 3区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Seong Min Park, Tae Jung Moon, Han Gyu Yoon, Hee Young Kwon, Changyeon Won
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引用次数: 0

Abstract

Topological analysis is widely adopted in various research fields to unveil intricate features and structural relationships implied in geometrical objects. Especially, in the fields of data analysis, exploring the topological properties of various images offers rich insights into the intrinsic geometrical information within them. In this study, a novel approach is proposed to investigate the topological properties of arbitrary grayscale images by employing a straightforward procedure used in 2D magnetism studies to calculate topological numbers. This method utilizes machine learning techniques to transfer chiral magnetic textures onto the images. Then, the topological number is then computed directly from the converted images by integrating the solid angles formed by adjacent spin vectors. The method successfully identifies the topological numbers of various grayscale images, showing stable performances against small noises. Furthermore, two applications of the method: are demonstrated topological analysis of the Modified National Institute of Standards and Technology (MNIST) dataset and the counting of blood cells in microscopic images.

Abstract Image

Abstract Image

通过传递手性磁性纹理索引图像上的拓扑数
拓扑分析被广泛应用于各个研究领域,以揭示几何对象中隐含的复杂特征和结构关系。特别是在数据分析领域,通过探索各种图像的拓扑特性,可以深入了解其内在的几何信息。本研究提出了一种新方法,通过采用二维磁性研究中使用的直接程序来计算拓扑数,从而研究任意灰度图像的拓扑特性。该方法利用机器学习技术将手性磁纹理转移到图像上。然后,通过对相邻自旋矢量形成的实体角进行积分,直接从转换后的图像中计算拓扑数。该方法成功地识别了各种灰度图像的拓扑数,并在面对小噪声时表现出稳定的性能。此外,还展示了该方法的两个应用:对美国国家标准与技术研究院(MNIST)数据集的拓扑分析和显微图像中血细胞的计数。
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来源期刊
Advanced Materials Technologies
Advanced Materials Technologies Materials Science-General Materials Science
CiteScore
10.20
自引率
4.40%
发文量
566
期刊介绍: Advanced Materials Technologies Advanced Materials Technologies is the new home for all technology-related materials applications research, with particular focus on advanced device design, fabrication and integration, as well as new technologies based on novel materials. It bridges the gap between fundamental laboratory research and industry.
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