Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study
We performed a temperature-modulated first-order reversal curve (FORC) study on a Pt/Co/Fe/Ir magnetic stack that exhibited a magnetic phase transition from isolated skyrmions to skyrmion lattice with increasing temperature. Using in situ magneto-optical Kerr imaging, a generalized description of do...
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sg-ntu-dr.10356-1510972023-02-28T19:54:39Z Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study Ang, Calvin Ching Ian Gan, Weiliang Wong, Grayson Dao Hwee Lew, Wen Siang School of Physical and Mathematical Sciences Science::Physics Magnetic Phase Transitions Magnetic Texture We performed a temperature-modulated first-order reversal curve (FORC) study on a Pt/Co/Fe/Ir magnetic stack that exhibited a magnetic phase transition from isolated skyrmions to skyrmion lattice with increasing temperature. Using in situ magneto-optical Kerr imaging, a generalized description of domain transformations associated with the FORC distribution peaks at both their reversal and sweeping field are derived to allow for direct analysis from the FORC diagram. The sweeping field of the peak, which is commonly ignored in analysis, is identified as the process of domain propagation or nucleation towards terminal domain separation. This process is found to be essential in inducing magnetization irreversibility to reveal domain transformations. In addition, a model characterized by the FORC distribution peaks was developed to describe the transition from the isolated skyrmion to skyrmion lattice phase as well as to identify important field ranges for the transformations. This study establishes an intuitive form of analysis for the otherwise abstract data of FORC distribution for the characterization of magnetic skyrmions in the active field of skyrmionics. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) Published version This work was supported by the Singapore National Research Foundation, Prime Minister's Office under a Competitive Research Programme (Non-volatile Magnetic Logic and Memory Integrated Circuit Devices, NRF-CRP9-2011- 01), and an Industry-IHL Partnership Program (NRF2015- IIP001-001). The support from a RIE2020 ASTAR AME IAF-ICP Grant (No. I1801E0030) is also acknowledged. 2021-06-28T10:25:06Z 2021-06-28T10:25:06Z 2021 Journal Article Ang, C. C. I., Gan, W., Wong, G. D. H. & Lew, W. S. (2021). Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study. Physical Review B, 103(14), 144409-. https://dx.doi.org/10.1103/PhysRevB.103.144409 2469-9950 https://hdl.handle.net/10356/151097 10.1103/PhysRevB.103.144409 2-s2.0-85104439206 14 103 144409 en NRF-CRP9-2011-01 NRF2015- IIP001-001 I1801E0030 Physical Review B © 2021 American Physical Society (APS). All rights reserved. This paper was published in Physical Review B and is made available with permission of American Physical Society (APS). application/pdf |
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Science::Physics Magnetic Phase Transitions Magnetic Texture Ang, Calvin Ching Ian Gan, Weiliang Wong, Grayson Dao Hwee Lew, Wen Siang Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study |
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We performed a temperature-modulated first-order reversal curve (FORC) study on a Pt/Co/Fe/Ir magnetic stack that exhibited a magnetic phase transition from isolated skyrmions to skyrmion lattice with increasing temperature. Using in situ magneto-optical Kerr imaging, a generalized description of domain transformations associated with the FORC distribution peaks at both their reversal and sweeping field are derived to allow for direct analysis from the FORC diagram. The sweeping field of the peak, which is commonly ignored in analysis, is identified as the process of domain propagation or nucleation towards terminal domain separation. This process is found to be essential in inducing magnetization irreversibility to reveal domain transformations. In addition, a model characterized by the FORC distribution peaks was developed to describe the transition from the isolated skyrmion to skyrmion lattice phase as well as to identify important field ranges for the transformations. This study establishes an intuitive form of analysis for the otherwise abstract data of FORC distribution for the characterization of magnetic skyrmions in the active field of skyrmionics. |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Ang, Calvin Ching Ian Gan, Weiliang Wong, Grayson Dao Hwee Lew, Wen Siang |
| format |
Article |
| author |
Ang, Calvin Ching Ian Gan, Weiliang Wong, Grayson Dao Hwee Lew, Wen Siang |
| author_sort |
Ang, Calvin Ching Ian |
| title |
Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study |
| title_short |
Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study |
| title_full |
Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study |
| title_fullStr |
Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study |
| title_full_unstemmed |
Temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study |
| title_sort |
temperature-modulated magnetic skyrmion phases and transformations analysis from first-order reversal curve study |
| publishDate |
2021 |
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https://hdl.handle.net/10356/151097 |
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