曲率驱动的交流辅助磁畴壁蠕变动力学

P. Domenichini, F. Parı́s, M. Capeluto, M. Granada, J. George, G. Pasquini, A. Kolton
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引用次数: 0

摘要

超薄铁磁薄膜中微米级磁畴的动力学被淬火无序极大地减缓,以至于在室温下无法观察到自发弹性张力崩溃。通过磁光成像,我们发现微弱的零偏置交流磁场可以帮助这种曲率驱动的坍塌,使气泡的面积以可测量的速率减少,尽管相同的曲率对由类似的直流场驱动的平均蠕变运动的影响可以忽略不计。一个分析模型定量地解释了这一现象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Curvature-driven ac-assisted creep dynamics of magnetic domain walls
The dynamics of micrometer-sized magnetic domains in ultra-thin ferromagnetic films is so dramatically slowed down by quenched disorder that the spontaneous elastic tension collapse becomes unobservable at ambient temperature. By magneto-optical imaging we show that a weak zero-bias AC magnetic field can assist such curvature-driven collapse, making the area of a bubble to reduce at a measurable rate, in spite of the negligible effect that the same curvature has on the average creep motion driven by a comparable DC field. An analytical model explains this phenomenon quantitatively.
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