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Local Inversion Symmetry Breaking and Thermodynamic Evidence for Ferrimagnetism in Fe3GaTe2

Authors
Lee, Sang-EonLi, YueLee, YeonkyuBrown, W. KiceCai, PeiYuYun, JinyoungLee, ChanyoungMoon, AlexMei, LingruiKim, JaeyongXin, YanBorchers, Julie A.Heitmann, Thomas W.Frontzek, MatthiasRatcliff, William D.McCandless, Gregory T.Chan, Julia Y.Santos, Elton J. G.Kim, JeehoonPhatak, Charudatta M.Kulichenko, VadymBalicas, Luis
Issue Date
Aug-2025
Publisher
American Chemical Society
Keywords
van der Waals ferromagnets; anomalous Hall-effect; skyrmions; topological Hall-effect; ferrimagnetism; transmission electron microscopy; magnetic force microscopy
Citation
ACS Nano, v.19, no.31, pp 28702 - 28718
Pages
17
Indexed
SCIE
SCOPUS
Journal Title
ACS Nano
Volume
19
Number
31
Start Page
28702
End Page
28718
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208607
DOI
10.1021/acsnano.5c08312
ISSN
1936-0851
1936-086X
Abstract
The layered compound Fe3GaTe2 is attracting attention due to its high Curie temperature, low dimensionality, and the presence of topological spin textures above room temperature, making Fe3GaTe2 a good candidate for applications in spintronics. Here, we show, through transmission electron microscopy (TEM) techniques, that Fe3GaTe2 single crystals break local inversion symmetry while maintaining global inversion symmetry according to X-ray diffraction. Coupled to the observation of Neel skyrmions via Lorentz-TEM, our structural analysis provides a convincing explanation for their presence in centrosymmetric materials. Magnetization measurements as a function of the temperature display a sharp first-order thermodynamic phase-transition leading to a reduction in the magnetic moment. This implies that the ground state of Fe3GaTe2 is globally ferrimagnetic and not a glassy magnetic state composed of ferrimagnetic, and ferromagnetic domains as previously claimed. Neutron diffraction studies indicate that the ferromagnetic-to-ferrimagnetic transition upon reducing the external magnetic field might be associated with a change in the magnetic configuration/coupling between Fe1 and Fe2 moments. We observe a clear correlation between the hysteresis observed in both the skyrmion density and the magnetization of Fe3GaTe2. This indicates that its topological spin textures are affected by the development of ferrimagnetism upon cooling. Observation, via magnetic force microscopy, of magnetic bubbles at the magnetic phase boundary suggests skyrmions stabilized by the competition among magnetic phases and distinct exchange interactions. Our study provides an explanation for the observation of Neel skyrmions in centrosymmetric systems while exposing a correlation between the distinct magnetic phases of Fe3GaTe2 and its topological spin textures.
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