Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots
Ambient magnetic skyrmions stabilized in multilayer nanostructures are of immense interest due to their relevance to magnetic tunnel junction (MTJ) devices for memory and unconventional computing applications. However, existing skyrmionic nanostructures built using conventional metallic or oxide mul...
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sg-ntu-dr.10356-1815382024-12-09T01:29:48Z Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots Toh, Alexander Kang-Jun Lim, McCoy W. Suraj, T. S. Chen, Xiaoye Tan, Hang Khume Lim, Royston Cheng, Xuan Min Lim, Nelson Yap, Sherry Kumar, Durgesh Piramanayagam, S. N. Ho, Pin Soumyanarayanan, Anjan School of Physical and Mathematical Sciences Physics Nanodots Skyrmions Ambient magnetic skyrmions stabilized in multilayer nanostructures are of immense interest due to their relevance to magnetic tunnel junction (MTJ) devices for memory and unconventional computing applications. However, existing skyrmionic nanostructures built using conventional metallic or oxide multilayer nanodots are unable to concurrently fulfill the requirements of nanoscale skyrmion stability and all-electrical readout and manipulation. Here, we develop a few-repeat hybrid multilayer platform consisting of metallic [Pt/CoB/Ir]3 and oxide [Pt/CoB/MgO] components that are coupled to evolve together as a single, composite stack. Zero-field (ZF) skyrmions with sizes as small as 50 nm are stabilized in the hybrid multilayer nanodots, which are smoothly modulated by up to 2× by varying CoB thickness and dot sizes. Meanwhile, skyrmion multiplets are also stabilized by small bias fields. Crucially, we observe higher-order "target"skyrmions with varying magnetization rotations in moderately sized, low-anisotropy nanodots. These results provide a viable route to realize robust skyrmionic MTJs and alternative possibilities for multistate skyrmionic device concepts. This work was supported by the SpOT-LITE programme (Grant No. A18A6b0057), funded by Singapore’s RIE2020 initiatives, and by NUS funds (Grant No. A-0004544-00-00). 2024-12-09T01:29:48Z 2024-12-09T01:29:48Z 2024 Journal Article Toh, A. K., Lim, M. W., Suraj, T. S., Chen, X., Tan, H. K., Lim, R., Cheng, X. M., Lim, N., Yap, S., Kumar, D., Piramanayagam, S. N., Ho, P. & Soumyanarayanan, A. (2024). Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots. Physical Review Applied, 22(2), 024036-. https://dx.doi.org/10.1103/PhysRevApplied.22.024036 2331-7019 https://hdl.handle.net/10356/181538 10.1103/PhysRevApplied.22.024036 2-s2.0-85201528885 2 22 024036 en A18A6b0057 A-0004544-00-00 Physical Review Applied © 2024 American Physical Society. All rights reserved. |
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Physics Nanodots Skyrmions Toh, Alexander Kang-Jun Lim, McCoy W. Suraj, T. S. Chen, Xiaoye Tan, Hang Khume Lim, Royston Cheng, Xuan Min Lim, Nelson Yap, Sherry Kumar, Durgesh Piramanayagam, S. N. Ho, Pin Soumyanarayanan, Anjan Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots |
| description |
Ambient magnetic skyrmions stabilized in multilayer nanostructures are of immense interest due to their relevance to magnetic tunnel junction (MTJ) devices for memory and unconventional computing applications. However, existing skyrmionic nanostructures built using conventional metallic or oxide multilayer nanodots are unable to concurrently fulfill the requirements of nanoscale skyrmion stability and all-electrical readout and manipulation. Here, we develop a few-repeat hybrid multilayer platform consisting of metallic [Pt/CoB/Ir]3 and oxide [Pt/CoB/MgO] components that are coupled to evolve together as a single, composite stack. Zero-field (ZF) skyrmions with sizes as small as 50 nm are stabilized in the hybrid multilayer nanodots, which are smoothly modulated by up to 2× by varying CoB thickness and dot sizes. Meanwhile, skyrmion multiplets are also stabilized by small bias fields. Crucially, we observe higher-order "target"skyrmions with varying magnetization rotations in moderately sized, low-anisotropy nanodots. These results provide a viable route to realize robust skyrmionic MTJs and alternative possibilities for multistate skyrmionic device concepts. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Toh, Alexander Kang-Jun Lim, McCoy W. Suraj, T. S. Chen, Xiaoye Tan, Hang Khume Lim, Royston Cheng, Xuan Min Lim, Nelson Yap, Sherry Kumar, Durgesh Piramanayagam, S. N. Ho, Pin Soumyanarayanan, Anjan |
| format |
Article |
| author |
Toh, Alexander Kang-Jun Lim, McCoy W. Suraj, T. S. Chen, Xiaoye Tan, Hang Khume Lim, Royston Cheng, Xuan Min Lim, Nelson Yap, Sherry Kumar, Durgesh Piramanayagam, S. N. Ho, Pin Soumyanarayanan, Anjan |
| author_sort |
Toh, Alexander Kang-Jun |
| title |
Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots |
| title_short |
Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots |
| title_full |
Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots |
| title_fullStr |
Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots |
| title_full_unstemmed |
Evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots |
| title_sort |
evolution of zero-field skyrmionic states in exchange-coupled composite multilayer nanodots |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/181538 |
| _version_ |
1819112979126288384 |