Direct visualization of local magnetic domain dynamics in a 2D Van der Walls material/ferromagnet interface

Joseph Vimal Vas; Rohit Medwal; Sourabh Manna; Mayank Mishra; Aaron Muller; John Rex Mohan; Yasuhiro Fukuma; Martial Duchamp; Rajdeep Singh Rawat

doi:10.1038/s42005-024-01861-w

Communications Physics (Dec 2024)

Direct visualization of local magnetic domain dynamics in a 2D Van der Walls material/ferromagnet interface

Joseph Vimal Vas,
Rohit Medwal,
Sourabh Manna,
Mayank Mishra,
Aaron Muller,
John Rex Mohan,
Yasuhiro Fukuma,
Martial Duchamp,
Rajdeep Singh Rawat

Affiliations

Joseph Vimal Vas: Laboratory for in situ and operando Electron Nanoscopy, School of Material Science and Engineering, Nanyang Technological University
Rohit Medwal: Department of Physics, Indian Institute of Technology
Sourabh Manna: Natural Sciences and Science Education, National Institute of Education, Nanyang Technological University
Mayank Mishra: Natural Sciences and Science Education, National Institute of Education, Nanyang Technological University
Aaron Muller: Laboratory for in situ and operando Electron Nanoscopy, School of Material Science and Engineering, Nanyang Technological University
John Rex Mohan: Department of Physics and Information Technology, Kyushu Institute of Technology
Yasuhiro Fukuma: Department of Physics and Information Technology, Kyushu Institute of Technology
Martial Duchamp: Laboratory for in situ and operando Electron Nanoscopy, School of Material Science and Engineering, Nanyang Technological University
Rajdeep Singh Rawat: Natural Sciences and Science Education, National Institute of Education, Nanyang Technological University

DOI: https://doi.org/10.1038/s42005-024-01861-w
Journal volume & issue: Vol. 7, no. 1
pp. 1 – 6

Abstract

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Abstract Controlling the magnetic domain propagation is the key to realize ultrafast, high-density domain wall-based memory and logic devices for next generation computing. Two-Dimensional (2D) Van der Waals materials introduce localized modifications to the interfacial magnetic order, which could enable efficient control over the propagation of magnetic domains. However, there is limited direct experimental evidence and understanding of the underlying mechanism, for 2D material mediated control of domain wall propagation. Here, using Lorentz-Transmission Electron Microscopy (L-TEM) along with the Modified Transport of Intensity equations (MTIE), we demonstrate controlled domain expansion with in-situ magnetic field in a ferromagnet (Permalloy, NiFe) interfacing with a 2D VdW material Graphene (Gr). The Gr/NiFe interface exhibits distinctive domain expansion rate with magnetic field selectively near the interface which is further analysed using micromagnetic simulations. Our findings are crucial for comprehending direct visualization of interface controlled magnetic domain expansion, offering insights for developing future domain wall-based technology.

Published in Communications Physics

ISSN: 2399-3650 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Astronomy: Astrophysics; Science: Physics
Website: https://www.nature.com/commsphys/

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