Application of deep learning methods to the study of magnetic phenomena

• Main Authors: Vasiliev, E. V, Kapitan, D. Yu, Korol, A. O, Rybin, A. E, Ovchinnikov, P. A, Soldatov, K. S, Shevchenko, Yu. A, Makarov, A. G, Kapitan, V. Yu
• Format: Journal Article
• Language: English
• Published: 12.11.2023
• Subjects: Physics - Computational Physics
• DOI: 10.48550/arxiv.2311.07059

Nowadays, methods and techniques of Machine Learning and Deep Learning are being used in various scientific areas. They help to automatize calculations without losing in quality. In this paper the applying of convolutional neural network was considered in frame of problems from statistical physics and computer simulation of magnetic films. In a frame of the first task, CNN was used to determine critical Curie point for Ising model on 2D square lattice. Obtained results were compared with classical Monte-Carlo methods and exact solution. Systems of various lattice sizes and the influence of the size effect on the results' accuracy were considered. Also, authors considered the classical two-dimensional Heisenberg model, a spin system with direct short-range exchange, and studied of its competition with the Dzyaloshinskii-Moriya interaction. A neural network was applied to the recognition of Spiral (Sp), Spiral-skyrmion (SpSk) Skyrmion (Sk), Skyrmion-ferromagnetic (SkF) and Ferromagnetic (FM) phases of the Heisenberg spin system with magnetic skyrmions. The advantage of CNN's application over conventional methods for determination of skyrmion's phases was revealed.