Defect-correlated skyrmions and controllable generation in perpendicularly magnetized CoFeB ultrathin films

Haihong Yin; Xiangyu Zheng; Junlin Wang; Yu Zhou; Balati Kuerbanjiang; Guanqi Li; Xianyang Lu; Kaiyu Tong; Yichuan Wang; Jing Wu; Vlado K. Lazarov; Richard F.L. Evans; Roy W. Chantrell; Jianwang Cai; Bo Liu; Hao Meng; Yongbing Xu

doi:10.1063/5.0057763

Defect-correlated skyrmions and controllable generation in perpendicularly magnetized CoFeB ultrathin films

Haihong Yin^*
, Xiangyu Zheng
, Junlin Wang
, Yu Zhou
, Balati Kuerbanjiang
, Guanqi Li
, Xianyang Lu
, Kaiyu Tong
, Yichuan Wang
, Jing Wu^*
, Vlado K. Lazarov
, Richard F.L. Evans
, Roy W. Chantrell
, Jianwang Cai
, Bo Liu
, Hao Meng
, Yongbing Xu^*

^*此作品的通讯作者

Nantong University
University of York
Nanjing University
CAS - Institute of Physics
Devices and Systems of Zhejiang Province

科研成果: 期刊稿件 › 文章 › 同行评审

5 引用（Scopus）

摘要

Skyrmions have attracted significant interest due to their topological spin structures and fascinating physical features. The skyrmion phase arises in materials with a Dzyaloshinskii-Moriya interaction at interfaces or in volume of non-centrosymmetric materials. Although skyrmions have been demonstrated experimentally, the general critical intrinsic relationship among fabrication, microstructures, magnetization, and the existence of skyrmions remains to be established. Here, two series of CoFeB ultrathin films with controlled atomic scale structures are employed to reveal this relationship. The amount of defects was artificially tuned by inverting the growth order, and skyrmions were shown to be preferentially formed in samples with more defects. By utilizing first-order reversal curves, the stable region and the skyrmion densities can be efficiently controlled in the return magnetization loops. These findings establish a general internal link from sample preparation to skyrmion generation and provide a general method for controlling skyrmion density.

源语言	英语
文章编号	062402
期刊	Applied Physics Letters
卷	119
期	6
DOI	https://doi.org/10.1063/5.0057763
出版状态	已出版 - 9 8月 2021
已对外发布	是

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Yin, H., Zheng, X., Wang, J., Zhou, Y., Kuerbanjiang, B., Li, G., Lu, X., Tong, K., Wang, Y., Wu, J., Lazarov, V. K., Evans, R. F. L., Chantrell, R. W., Cai, J., Liu, B., Meng, H., & Xu, Y. (2021). Defect-correlated skyrmions and controllable generation in perpendicularly magnetized CoFeB ultrathin films. Applied Physics Letters, 119(6), 文章 062402. https://doi.org/10.1063/5.0057763

@article{f9a63f3f23a845a3b41f419c55032dec,

title = "Defect-correlated skyrmions and controllable generation in perpendicularly magnetized CoFeB ultrathin films",

abstract = "Skyrmions have attracted significant interest due to their topological spin structures and fascinating physical features. The skyrmion phase arises in materials with a Dzyaloshinskii-Moriya interaction at interfaces or in volume of non-centrosymmetric materials. Although skyrmions have been demonstrated experimentally, the general critical intrinsic relationship among fabrication, microstructures, magnetization, and the existence of skyrmions remains to be established. Here, two series of CoFeB ultrathin films with controlled atomic scale structures are employed to reveal this relationship. The amount of defects was artificially tuned by inverting the growth order, and skyrmions were shown to be preferentially formed in samples with more defects. By utilizing first-order reversal curves, the stable region and the skyrmion densities can be efficiently controlled in the return magnetization loops. These findings establish a general internal link from sample preparation to skyrmion generation and provide a general method for controlling skyrmion density.",

author = "Haihong Yin and Xiangyu Zheng and Junlin Wang and Yu Zhou and Balati Kuerbanjiang and Guanqi Li and Xianyang Lu and Kaiyu Tong and Yichuan Wang and Jing Wu and Lazarov, \{Vlado K.\} and Evans, \{Richard F.L.\} and Chantrell, \{Roy W.\} and Jianwang Cai and Bo Liu and Hao Meng and Yongbing Xu",

note = "Publisher Copyright: {\textcopyright} 2021 Author(s).",

year = "2021",

month = aug,

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doi = "10.1063/5.0057763",

language = "英语",

volume = "119",

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T1 - Defect-correlated skyrmions and controllable generation in perpendicularly magnetized CoFeB ultrathin films

AU - Yin, Haihong

AU - Zheng, Xiangyu

AU - Wang, Junlin

AU - Zhou, Yu

AU - Kuerbanjiang, Balati

AU - Li, Guanqi

AU - Lu, Xianyang

AU - Tong, Kaiyu

AU - Wang, Yichuan

AU - Wu, Jing

AU - Lazarov, Vlado K.

AU - Evans, Richard F.L.

AU - Chantrell, Roy W.

AU - Cai, Jianwang

AU - Liu, Bo

AU - Meng, Hao

AU - Xu, Yongbing

PY - 2021/8/9

Y1 - 2021/8/9

N2 - Skyrmions have attracted significant interest due to their topological spin structures and fascinating physical features. The skyrmion phase arises in materials with a Dzyaloshinskii-Moriya interaction at interfaces or in volume of non-centrosymmetric materials. Although skyrmions have been demonstrated experimentally, the general critical intrinsic relationship among fabrication, microstructures, magnetization, and the existence of skyrmions remains to be established. Here, two series of CoFeB ultrathin films with controlled atomic scale structures are employed to reveal this relationship. The amount of defects was artificially tuned by inverting the growth order, and skyrmions were shown to be preferentially formed in samples with more defects. By utilizing first-order reversal curves, the stable region and the skyrmion densities can be efficiently controlled in the return magnetization loops. These findings establish a general internal link from sample preparation to skyrmion generation and provide a general method for controlling skyrmion density.

AB - Skyrmions have attracted significant interest due to their topological spin structures and fascinating physical features. The skyrmion phase arises in materials with a Dzyaloshinskii-Moriya interaction at interfaces or in volume of non-centrosymmetric materials. Although skyrmions have been demonstrated experimentally, the general critical intrinsic relationship among fabrication, microstructures, magnetization, and the existence of skyrmions remains to be established. Here, two series of CoFeB ultrathin films with controlled atomic scale structures are employed to reveal this relationship. The amount of defects was artificially tuned by inverting the growth order, and skyrmions were shown to be preferentially formed in samples with more defects. By utilizing first-order reversal curves, the stable region and the skyrmion densities can be efficiently controlled in the return magnetization loops. These findings establish a general internal link from sample preparation to skyrmion generation and provide a general method for controlling skyrmion density.

UR - https://www.scopus.com/pages/publications/85112678840

U2 - 10.1063/5.0057763

DO - 10.1063/5.0057763

M3 - 文章

AN - SCOPUS:85112678840

SN - 0003-6951

VL - 119

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 6

M1 - 062402

ER -

Defect-correlated skyrmions and controllable generation in perpendicularly magnetized CoFeB ultrathin films

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