1. Continuum Limit of Spin Dynamics on Hexagonal Lattice
- Author
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Bai, Mengjia, Chen, Jingrun, Sun, Zhiwei, and Wang, Yun
- Subjects
Mathematics - Analysis of PDEs ,FOS: Mathematics ,FOS: Physical sciences ,Mathematical Physics (math-ph) ,Mathematical Physics ,Analysis of PDEs (math.AP) - Abstract
Compared to their three-dimensional counterparts, two-dimensional materials exhibit intriguing electronic and magnetic properties. Notable examples include twisted graphene's superconducting states and chromium trichloride's meron spin textures. Understanding nontrivial topological spin textures is crucial for magnetization dynamics and spintronic technologies. In this study, we analyze the full model of discrete spin dynamics on a two-dimensional hexagonal lattice used in experiments with chromium trichloride. We prove its convergence to the continuum Landau-Lifshitz-Gilbert equation in the weak sense, despite difficulties arising from the absence of central symmetry when constructing difference quotient and interpolation operators on hexagonal lattices. To overcome these challenges, we introduce multi-step difference quotient and interpolation operators that possess an isometric property as a generalization of Ladysenskaya's interpolation operator. This result not only establishes a precise connection between parameters in atomistic models and those in continuum models but also provides necessary tools for analyzing weak convergence in other nonlinear problems on hexagonal lattices at microscopic and macroscopic scales seamlessly., Comment: 24 pages, 4 figures
- Published
- 2023
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