Journal article

Imaging nucleation and propagation of pinned domains in few-layer Fe5–xGeTe2

Abstract:: Engineering nontrivial spin textures in magnetic van der Waals materials is highly desirable for spintronic applications based on hybrid heterostructures. The recent observation of labyrinth and bubble domains in the near room-temperature ferromagnet Fe5–xGeTe2 down to a bilayer thickness was thus a significant advancement toward van der Waals-based many-body physics. However, the physical mechanism responsible for stabilizing these domains remains unclear and requires further investigation. Here, we combine cryogenic scanning diamond quantum magnetometry and field reversal techniques to elucidate the high-field propagation and nucleation of bubble domains in trilayer Fe5–xGeTe2. We provide evidence of pinning-induced nucleation of magnetic bubbles and further show an unexpectedly high layer-dependent coercive field. These measurements can be easily extended to a wide range of magnetic materials to provide valuable nanoscale insight into domain processes critical for spintronic applications.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Hoegen, M., Fujita, R., Tan, A. K. C., Geim, A., Pitts, M., Li, Z., Stefan, L., Hesjedal, T., & Atatuere, M. (2023). Imaging nucleation and propagation of pinned domains in few-layer Fe5–xGeTe2. ACS Nano, 17(17), 16879–16885.

MLA Style

Hoegen, M., et al. “Imaging Nucleation and Propagation of Pinned Domains in Few-Layer Fe5–xGeTe2.” ACS Nano, vol. 17, no. 17, American Chemical Society, 2023, pp. 16879–85.

Chicago Style

Hoegen, M, R Fujita, AKC Tan, A Geim, M Pitts, Z Li, L Stefan, T Hesjedal, and M Atatuere. 2023. “Imaging Nucleation and Propagation of Pinned Domains in Few-Layer Fe5–xGeTe2.” ACS Nano 17 (17): 16879–85.
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Files:: Hogen_et_al_2023_Imaging_Nucleation_andV.pdf

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Publisher copy:: 10.1021/acsnano.3c03825

Authors

+ Hoegen, M More by this author

Role:: Author

+ Fujita, R More by this author

Role:: Author

+ Tan, AKC More by this author

Role:: Author

+ Geim, A More by this author

Role:: Author

+ Pitts, M More by this author

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+ Engineering and Physical Sciences Research Council More from this funder

Grant:: RF040462

Publisher:: American Chemical Society
Journal:: ACS Nano More from this journal
Volume:: 17
Issue:: 17
Pages:: 16879–16885
Publication date:: 2023-08-29
Acceptance date:: 2023-08-23
DOI:: 10.1021/acsnano.3c03825
EISSN:: 1936-086X
ISSN:: 1936-0851

Language:: English
Keywords:: quantum imaging

Fe5GeTe2

van der Waals materials

FFR

two-dimensional material

nitrogen-vacancy center
Pubs id:: 1517491
Local pid:: pubs:1517491
Deposit date:: 2023-08-29

Terms of use

Copyright holder:: Högen et al
Copyright date:: 2023
Rights statement:: © 2023 The Authors. Published by American Chemical Society. This publication is licensed under CC-BY 4.0.

Licence:: CC Attribution (CC BY)

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