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  Machine-learning-based detection of spin structures

Labrie-Boulay, I., Winkler, T. B., Franzen, D., Romanova, A., Fangohr, H., & Kläui, M. (2024). Machine-learning-based detection of spin structures. Physical Review Applied, 21(1): 014014. doi:10.1103/PhysRevApplied.21.014014.

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Item Permalink: https://hdl.handle.net/21.11116/0000-000C-DF33-0 Version Permalink: https://hdl.handle.net/21.11116/0000-000E-3909-9
Genre: Journal Article

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PhysRevApplied.21.014014.pdf (Publisher version), 5MB
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Supplemental Material: We give information about material stacks, and also analyse the performance of the networks in more depth. All other data is stored in the Zendo repository, where the complete study can be reproduced.
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https://arxiv.org/abs/2303.16905 (Preprint)
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https://doi.org/10.5281/zenodo.7636110 (Supplementary material)
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 Creators:
Labrie-Boulay, I.1, Author
Winkler, T. B.1, Author
Franzen, D.2, Author
Romanova, A.1, Author
Fangohr, H.3, 4, Author           
Kläui, M.1, Author
Affiliations:
1Institute for Physics, Johannes Gutenberg University, ou_persistent22              
2Institute of Computer Science, Johannes Gutenberg University, ou_persistent22              
3Computational Science, Scientific Service Units, Max Planck Institute for the Structure and Dynamics of Matter, Max Planck Society, ou_3267028              
4Computational Modelling Group, Faculty of Engineering and Physical Sciences, University of Southampton, ou_persistent22              

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 Abstract: One of the most important magnetic spin structures is the topologically stabilized skyrmion quasiparticle. Its interesting physical properties make it a candidate for memory and efficient neuromorphic computation schemes. For device operation, the detection of the position, shape, and size of skyrmions is required and magnetic imaging is typically employed. A frequently used technique is magneto-optical Kerr microscopy, in which, depending on the sample’s material composition, temperature, material growing procedures, etc., the measurements suffer from noise, low contrast, intensity gradients, or other optical artifacts. Conventional image analysis packages require manual treatment, and a more automatic solution is required. We report a convolutional neural network specifically designed for segmentation problems to detect the position and shape of skyrmions in our measurements. The network is tuned using selected techniques to optimize predictions and, in particular, the number of detected classes is found to govern the performance. The results of this study show that a well-trained network is a viable method of automating data preprocessing in magnetic microscopy. The approach is easily extendable to other spin structures and other magnetic imaging methods.

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Language(s): eng - English
 Dates: 2023-08-112023-05-262023-11-162024-01-10
 Publication Status: Published online
 Pages: -
 Publishing info: -
 Table of Contents: -
 Rev. Type: Peer
 Identifiers: arXiv: 2303.16905
DOI: 10.1103/PhysRevApplied.21.014014
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Project name : -
Grant ID : 856538
Funding program : Horizon 2020 (H2020)
Funding organization : European Commission (EC)
Project name : -
Grant ID : 101070290
Funding program : Horizon Europe (HE)
Funding organization : European Commission (EC)
Project name : I.L.-B. gratefully acknowledges the German Academic Exchange Service (DAAD) and Mitacs for the scholarship that allowed him to complete his internship held at the Institut für Physik at the Johannes Gutenberg University of Mainz. He also thanks T.B.W. for providing him with technical assistance and supervising him throughout his internship. We thank Karin Everschor-Sitte for the fruitful discussions. D.F. was funded by DFG Project No. 233630050 (TRR 146). The work was further funded by the emergentAI center, funded itself by the Carl Zeiss Stiftung, further by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) Projects No. 403502522 (SPP 2137 Skyrmionics), No. 49741853, and No. 268565370 (SFB TRR173 Projects No. A01 and No. B02). The work is also supported by the Horizon 2020 Framework Program of the European Commission under FET-Open Grant Agreement No. 856538 (ERC-2019-SyG; 3D MAGiC) and the Horizon Europe Project No. 101070290 (NIMFEIA), which we acknowledge. We also want to acknowledge the colleagues that contributed to the datasets by fabricating the materials and devices, and carrying out the magnetic microscopy measurements.
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Title: Physical Review Applied
  Abbreviation : Phys. Rev. Appl.
Source Genre: Journal
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Publ. Info: College Park, Md. [u.a.] : American Physical Society
Pages: - Volume / Issue: 21 (1) Sequence Number: 014014 Start / End Page: - Identifier: ISSN: 2331-7019
CoNE: https://pure.mpg.de/cone/journals/resource/2331-7019