Enhancement of skyrmion density via interface engineering
Magnetic skyrmions are promising candidates for computing and memory applications. The static and dynamic behaviors of skyrmions are tunable by altering the interfacial magnetic properties. These interfacial magnetic properties are alterable by modifying the interface structure of thin films. Howeve...
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sg-ntu-dr.10356-1687762023-06-19T15:34:37Z Enhancement of skyrmion density via interface engineering Bhatti, Sabpreet Tan, H.K. Sim, M.I. Zhang, V. L. Sall, M. Xing, Z. X. Juge, R. Mahendiran, R. Soumyanarayanan, A. Lim, S. T. Ravelosona, D. Piramanayagam, S. N. School of Physical and Mathematical Sciences Science::Physics Atomic Displacement Interfacial Magnetic Property Magnetic skyrmions are promising candidates for computing and memory applications. The static and dynamic behaviors of skyrmions are tunable by altering the interfacial magnetic properties. These interfacial magnetic properties are alterable by modifying the interface structure of thin films. However, the relationship between the structural properties of the interface and the skyrmions properties is not straightforward, and a comprehensive insight is required to facilitate better controllability of the skyrmions’ behaviors. Here, we comprehensively understand the relationship between atomic displacements at the interface and skyrmions’ static behavior. In this study, we used ion irradiation to achieve inter-atomic displacements. We observed that the inter-atomic displacements could tailor the physical properties of skyrmions. We noticed a peculiar increase in the magnetization, Dzyaloshinskii-Moriya interaction, and exchange stiffness. The modifications in magnetic properties reduced the domain wall energy, which enhanced the skyrmion density (by six-folds) and reduced the average skyrmion diameter (by 50%). Furthermore, we compared the observed results of ion irradiation with those from the annealing process (a well-studied method for modifying magnetic properties) to better understand the effect of atomic displacements. Our study provides a route to achieve a highly-dense skyrmion state, and it can be explored further to suppress the skyrmion Hall effect for skyrmion-based applications. Agency for Science, Technology and Research (A*STAR) Published version This work was supported by the Agency for Science, Technology and Research, A*STAR RIE2020 AME, under Grant No. A18A6b0057. 2023-06-19T05:27:52Z 2023-06-19T05:27:52Z 2023 Journal Article Bhatti, S., Tan, H., Sim, M., Zhang, V. L., Sall, M., Xing, Z. X., Juge, R., Mahendiran, R., Soumyanarayanan, A., Lim, S. T., Ravelosona, D. & Piramanayagam, S. N. (2023). Enhancement of skyrmion density via interface engineering. APL Materials, 11(1), 011103-. https://dx.doi.org/10.1063/5.0118147 2166-532X https://hdl.handle.net/10356/168776 10.1063/5.0118147 2-s2.0-85146487390 1 11 011103 en A18A6b0057 APL Materials © 2023 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Science::Physics Atomic Displacement Interfacial Magnetic Property Bhatti, Sabpreet Tan, H.K. Sim, M.I. Zhang, V. L. Sall, M. Xing, Z. X. Juge, R. Mahendiran, R. Soumyanarayanan, A. Lim, S. T. Ravelosona, D. Piramanayagam, S. N. Enhancement of skyrmion density via interface engineering |
| description |
Magnetic skyrmions are promising candidates for computing and memory applications. The static and dynamic behaviors of skyrmions are tunable by altering the interfacial magnetic properties. These interfacial magnetic properties are alterable by modifying the interface structure of thin films. However, the relationship between the structural properties of the interface and the skyrmions properties is not straightforward, and a comprehensive insight is required to facilitate better controllability of the skyrmions’ behaviors. Here, we comprehensively understand the relationship between atomic displacements at the interface and skyrmions’ static behavior. In this study, we used ion irradiation to achieve inter-atomic displacements. We observed that the inter-atomic displacements could tailor the physical properties of skyrmions. We noticed a peculiar increase in the magnetization, Dzyaloshinskii-Moriya interaction, and exchange stiffness. The modifications in magnetic properties reduced the domain wall energy, which enhanced the skyrmion density (by six-folds) and reduced the average skyrmion diameter (by 50%). Furthermore, we compared the observed results of ion irradiation with those from the annealing process (a well-studied method for modifying magnetic properties) to better understand the effect of atomic displacements. Our study provides a route to achieve a highly-dense skyrmion state, and it can be explored further to suppress the skyrmion Hall effect for skyrmion-based applications. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Bhatti, Sabpreet Tan, H.K. Sim, M.I. Zhang, V. L. Sall, M. Xing, Z. X. Juge, R. Mahendiran, R. Soumyanarayanan, A. Lim, S. T. Ravelosona, D. Piramanayagam, S. N. |
| format |
Article |
| author |
Bhatti, Sabpreet Tan, H.K. Sim, M.I. Zhang, V. L. Sall, M. Xing, Z. X. Juge, R. Mahendiran, R. Soumyanarayanan, A. Lim, S. T. Ravelosona, D. Piramanayagam, S. N. |
| author_sort |
Bhatti, Sabpreet |
| title |
Enhancement of skyrmion density via interface engineering |
| title_short |
Enhancement of skyrmion density via interface engineering |
| title_full |
Enhancement of skyrmion density via interface engineering |
| title_fullStr |
Enhancement of skyrmion density via interface engineering |
| title_full_unstemmed |
Enhancement of skyrmion density via interface engineering |
| title_sort |
enhancement of skyrmion density via interface engineering |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/168776 |
| _version_ |
1772826537998942208 |