Magnetic dynamics of strained non-collinear antiferromagnet.
In: Journal of Applied Physics, Jg. 135 (2024-03-07), Heft 9, S. 1-9
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Zugriff:
In this work, we theoretically study the switching and oscillation dynamics in strained non-collinear antiferromagnet (AFM) Mn 3 X (X = Sn, Ge, etc.). Using the perturbation theory, we identify three separable dynamic modes—one uniform and two optical modes, for which we analytically derive the oscillation frequencies and effective damping. We also establish a compact, vector equation for describing the dynamics of the uniform mode, which is in analogy to the conventional Landau–Lifshitz–Gilbert (LLG) equation for ferromagnet but captures the unique features of the cluster octuple moment. Extending our model to include spatial inhomogeneity, we are able to describe the excitations of dissipative spin wave and spin superfluidity state in the non-collinear AFM. Furthermore, we carry out numerical simulations based on coupled LLG equations to verify the analytical results, where good agreements are reached. Our treatment with the perturbative approach provides a systematic tool for studying the dynamics of non-collinear AFM and is generalizable to other magnetic systems in which the Hamiltonian can be expressed in a hierarchy of energy scales. [ABSTRACT FROM AUTHOR]
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Titel: |
Magnetic dynamics of strained non-collinear antiferromagnet.
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Autor/in / Beteiligte Person: | He, Zhiping ; Liu, Luqiao |
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Zeitschrift: | Journal of Applied Physics, Jg. 135 (2024-03-07), Heft 9, S. 1-9 |
Veröffentlichung: | 2024 |
Medientyp: | academicJournal |
ISSN: | 0021-8979 (print) |
DOI: | 10.1063/5.0192467 |
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