\begin{document}$k \leqslant 0.147$\end{document}, while nucleation and splitting phenomenon of new domains are observed at the transversal magnetic domain wall in ribbons of k > 0.147. Both longitudinally driven giant magneto-impedance effect and domain structures provide evidence to support the competing inhibition effect of magnetic anisotropy which exists in Fe-based alloy ribbon. Therefore, it is suggested that Fe-based alloys exhibit excellent stress-sensitive properties that can be understood by the competing inhibition effects of magnetic anisotropy. It is further shown that the competing inhibition effect of magnetic anisotropy is the main reason for regulating the giant magneto-impedance effect of soft magnetic materials. This multi-field coupling Fe-based alloy has good application prospects in regulating magnetic properties of magnetic materials."> - 必威体育下载

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    Zhang Jian-Qiang, Qin Yan-Jun, Fang Zheng, Fan Xiao-Zhen, Ma Yun, Li Wen-Zhong, Yang Hui-Ya, Kuang Fu-Li, Zhai Yao, Shi Ying-Long, Dang Wen-Qiang, Ye Hui-Qun, Fang Yun-Zhang
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    • Abstract views:3008
    • PDF Downloads:40
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    Publishing process
    • Received Date:11 July 2022
    • Accepted Date:28 August 2022
    • Available Online:05 December 2022
    • Published Online:05 December 2022

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