Surface acoustic wave assisted domain wall motion in [Co/Pd]2/Pd(t)/Py multilayers

•The SAW assisted domain wall motion can be controlled in our [Co/Pd]2/Pd(t nm)/Py multilayer films.•Our experimental work could provide a way for achieving adjustable and stable domain wall motion in spintronic devices.•Our findings may have implications for the design of SAW-controlled domain-wall...

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Veröffentlicht in:	Journal of magnetism and magnetic materials 2020-05, Vol.502, p.166546, Article 166546
Hauptverfasser:	Wei, Yurui, Li, Xiaolei, Gao, Runliang, Wu, Huiliang, Wang, Xiangqian, Zeng, Zhaozhuo, Wang, Jianbo, Liu, Qingfang
Format:	Artikel
Sprache:	eng
Schlagworte:	[Co/Pd]2 multilayers Cobalt Domain wall motion Domain walls Fundamental frequency Multilayers Palladium Power consumption Resonant frequencies Surface acoustic wave (SAW) Surface acoustic wave devices Surface acoustic waves
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container_title	Journal of magnetism and magnetic materials
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creator	Wei, Yurui Li, Xiaolei Gao, Runliang Wu, Huiliang Wang, Xiangqian Zeng, Zhaozhuo Wang, Jianbo Liu, Qingfang
description	•The SAW assisted domain wall motion can be controlled in our [Co/Pd]2/Pd(t nm)/Py multilayer films.•Our experimental work could provide a way for achieving adjustable and stable domain wall motion in spintronic devices.•Our findings may have implications for the design of SAW-controlled domain-wall-based spintronic devices. Surface acoustic wave (SAW) devices have become an important field of interest because of their low power consumption, low cost, and high stability. In this work, we report an experimental work of tuning the intensity of SAW assisted domain wall motion via the insertion of a nonmagnetic-metal Pd layer between [Co/Pd]2 and Py. The results indicated that the velocity of the domain wall motion assisted by SAW can be reduced by increasing the thickness of the inserted nonmagnetic-metal Pd at the fundamental frequency (183.4 MHz). Above or below the fundamental frequency, the response of the device is not obvious. Our study could provide a way for achieving adjustable and stable domain wall motion in domain-wall-based spintronic devices.
doi_str_mv	10.1016/j.jmmm.2020.166546
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Surface acoustic wave (SAW) devices have become an important field of interest because of their low power consumption, low cost, and high stability. In this work, we report an experimental work of tuning the intensity of SAW assisted domain wall motion via the insertion of a nonmagnetic-metal Pd layer between [Co/Pd]2 and Py. The results indicated that the velocity of the domain wall motion assisted by SAW can be reduced by increasing the thickness of the inserted nonmagnetic-metal Pd at the fundamental frequency (183.4 MHz). Above or below the fundamental frequency, the response of the device is not obvious. 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Surface acoustic wave (SAW) devices have become an important field of interest because of their low power consumption, low cost, and high stability. In this work, we report an experimental work of tuning the intensity of SAW assisted domain wall motion via the insertion of a nonmagnetic-metal Pd layer between [Co/Pd]2 and Py. The results indicated that the velocity of the domain wall motion assisted by SAW can be reduced by increasing the thickness of the inserted nonmagnetic-metal Pd at the fundamental frequency (183.4 MHz). Above or below the fundamental frequency, the response of the device is not obvious. 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subjects	[Co/Pd]2 multilayers Cobalt Domain wall motion Domain walls Fundamental frequency Multilayers Palladium Power consumption Resonant frequencies Surface acoustic wave (SAW) Surface acoustic wave devices Surface acoustic waves
title	Surface acoustic wave assisted domain wall motion in [Co/Pd]2/Pd(t)/Py multilayers
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