Memory effects on the current induced propagation of spin textures in NdCo$_5$/Ni$_8$Fe$_2$ bilayers

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-06-03 DOI:arxiv-2406.01091

Victoria Vega Fernández, Alicia Estela Herguedas-Alonso, Javier Hermosa, Lucía Aballe, Andrea Sorrentino, Ricardo Valcarcel, Carlos Quiros, Jose Ignacio Martín, Eva Pereiro, Salvador Ferrer, Aurelio Hierro-Rodríguez, María Vélez

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Abstract

Bilayers of NdCo$_5$/Ni$_8$Fe$_2$ can act as reconfigurable racetracks thanks to the parallel stripe domain configuration present in the hard magnetic material with weak perpendicular anisotropy (NdCo$_5$), and its imprint on the soft magnetic layer (Ni$_8$Fe$_2$). This pattern hosts spin textures with well defined topological charges and establishes paths for their deterministic propagation under the effect of pulsed currents, which has been studied as a function of externally applied fields by using Magnetic Transmission X-ray Microscopy. The experiments show guided vortex/antivortex propagation events within the Ni$_8$Fe$_2$ above a threshold current of $3\cdot10^{11}$ A/m$^2$. Opposite propagation senses have been observed depending on the topological charge of the spin texture, both in the remnant state and under an applied external field. Micromagnetic simulations of our multilayer reveal that the guiding effect and asymmetric propagation sense are due to the magnetic history of the hard magnetic layer. An exchange-bias-based memory effect acts as a magnetic spring and controls the propagation sense by favoring a specific orientation of the in plane magnetization, leading to a system which behaves as a hard-soft magnetic composite with reconfigurable capabilities for a controlled propagation of magnetic topological textures.

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电流诱导自旋纹理在钕钴元_5元/镍元_8元铁元_2元双层膜中传播的记忆效应

NdCo$_5$/Ni$_8$Fe$_2$ 的双层膜可以作为可重新配置的赛道，这要归功于具有弱垂直各向异性的硬磁性材料（NdCo$_5$）中存在的平行条纹畴构型及其在软磁层（Ni$_8$Fe$_2$）上的印记。利用磁透射 X 射线显微镜研究了这种模式作为外加磁场的函数所产生的具有明确拓扑电荷的自旋纹理，并为其在脉冲电流作用下的确定性传播建立了路径。实验结果表明，当阈值电流超过 $3\cdot10^{11}$ A/m$^2$ 时，Ni$_8$Fe$_2$ 中会出现有向导的旋涡/反旋涡传播现象。对我们的多磁层进行的微磁模拟显示，引导效应和非对称传播感应是由硬磁层的磁性历史造成的。基于交换偏置的记忆效应就像磁性弹簧一样，通过偏向平面内磁化的特定方向来控制传播感，从而产生了一种表现为软硬磁性复合材料的系统，它具有可重新配置的能力，可以控制磁拓扑纹理的传播。

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arXiv - PHYS - Other Condensed Matter

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