Determination of the Dzyaloshinskii-Moriya interaction using pattern recognition and machine learning

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Abstract

Machine learning is applied to a large number of modern devices that are essential in building an energy-efficient smart society. Audio and face recognition are among the most well-known technologies that make use of such artificial intelligence. In materials research, machine learning is adapted to predict materials with certain functionalities, an approach often referred to as materials informatics. Here, we show that machine learning can be used to extract material parameters from a single image obtained in experiments. The Dzyaloshinskii–Moriya (DM) interaction and the magnetic anisotropy distribution of thin-film heterostructures, parameters that are critical in developing next-generation storage class magnetic memory technologies, are estimated from a magnetic domain image. Micromagnetic simulation is used to generate thousands of random images for training and model validation. A convolutional neural network system is employed as the learning tool. The DM exchange constant of typical Co-based thin-film heterostructures is studied using the trained system: the estimated values are in good agreement with experiments. Moreover, we show that the system can independently determine the magnetic anisotropy distribution, demonstrating the potential of pattern recognition. This approach can considerably simplify experimental processes and broaden the scope of materials research.

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Kawaguchi, M., Tanabe, K., Yamada, K., Sawa, T., Hasegawa, S., Hayashi, M., & Nakatani, Y. (2021). Determination of the Dzyaloshinskii-Moriya interaction using pattern recognition and machine learning. Npj Computational Materials, 7(1). https://doi.org/10.1038/s41524-020-00485-2

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