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Magnetic anisotropy in ferromagnetic CrI3
- Authors
- Chen, Lebing; Chung, Jae-Ho; Chen, Tong; Duan, Chunruo; Schneidewind, Astrid; Radelytskyi, Igor; Voneshen, David J.; Ewings, Russell A.; Stone, Matthew B.; Kolesnikov, Alexander, I; Winn, Barry; Chi, Songxue; Mole, R. A.; Yu, D. H.; Gao, Bin; Dai, Pengcheng
- Issue Date
- 15-4월-2020
- Publisher
- AMER PHYSICAL SOC
- Citation
- PHYSICAL REVIEW B, v.101, no.13
- Indexed
- SCIE
SCOPUS
- Journal Title
- PHYSICAL REVIEW B
- Volume
- 101
- Number
- 13
- ISSN
- 2469-9950
- Abstract
- We use neutron scattering to show that ferromagnetic (FM) phase transition in the two-dimensional (2D) honeycomb lattice CrI3 is a weakly first order transition and controlled by spin-orbit coupling (SOC) induced magnetic anisotropy, instead of magnetic exchange coupling as in a conventional ferromagnet. With increasing temperature, the magnitude of magnetic anisotropy, seen as a spin gap at the Brillouin zone center, decreases in a power law fashion and vanishes at T-C, while the in-plane and c-axis spin-wave stiffnesses associated with magnetic exchange couplings remain robust at T-C. We also compare parameter regimes where spin waves in CrI3 can be described by a Heisenberg Hamiltonian with Dzyaloshinskii-Moriya interaction or a Heisenberg-Kitaev Hamiltonian. These results suggest that the SOC induced magnetic anisotropy plays a dominant role in stabilizing the FM order in single layer 2D van der Waals ferromagnets.
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