Nonperturbative calculation of exchange coupling parameters
| Autor: | Tanaka, Tomonori, Gohda, Yoshihiro |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Exchange coupling parameters $J_{ij}$ within the Heisenberg model and its extensions are crucial for understanding magnetic behavior at the atomic level. To calculate $J_{ij}$ from first principles, perturbative methods based on the magnetic force theorem (MFT), commonly referred to as the Liechtenstein's method, has been widely employed. However, the quantitative accuracy of $J_{ij}$ obtained through this perturbative technique remains questionable. In this paper, we nonperturbatively calculate $J_{ij}$ for several systems of both fundamental and applied significance, including perovskite SrMnO$_3$, neodymium-magnet compounds, and elemental 3$d$ transition metals, and compare these results with those obtained using the conventional MFT-based method. The nonperturbative approach consistently yields reliable results, whereas the MFT-based method exhibits issues in both quantitative and, at times, qualitative accuracy. As discussed later in this paper, these discrepancies arise from neglected contributions within the MFT-based methods. Our nonperturbative scheme is highly versatile and offers strong prospects as a new platform for analyzing and designing spintronics materials, where developing accurate magnetic models is essential. Comment: 11 pages, 8 figures |
| Databáze: | arXiv |
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