Manipulation of 2D and 3D Magnetic Solitons Under the Influence of DMI Gradients

IF 1.8 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY IEEE Open Journal of Nanotechnology Pub Date : 2024-10-21 DOI:10.1109/OJNANO.2024.3484568
Rayan Moukhader;Davi Rodrigues;Eleonora Raimondo;Vito Puliafito;Bruno Azzerboni;Mario Carpentieri;Abbass Hamadeh;Giovanni Finocchio;Riccardo Tomasello
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Abstract

Magnetic solitons hold great promise for token-based computing applications due to their intrinsic properties, including small size, topological stability, ultra-low power manipulation, and potentially ultra-fast operation. In particular, they have been proposed as reliable memory units that enable the execution of various logic tasks with in-situ memory. A critical challenge remains the identification of optimal soliton and efficient manipulation techniques. Previous research has primarily focused on the manipulation of two-dimensional solitons, such as skyrmions, domain walls, and vortices, by applied currents. The discovery of novel methods to control magnetic parameters, such as the interfacial Dzyaloshinskii-Moriya interaction, through strain, temperature gradients, and applied voltages offers new avenues for energetically efficient manipulation of magnetic structures. In this work, we present a comprehensive study using numerical and analytical methods to investigate the stability and motion of various magnetic textures under the influence of DMI gradients. Our results show that Néel and Bloch-type skyrmions, as well as radial vortices, exhibit motion characterized by finite skyrmion Hall angles, while circular vortices undergo expulsion dynamics. This study provides a deeper and crucial understanding of the stability and gradient-driven dynamics of magnetic solitons, paving the way for the design of scalable spintronics token-based computing devices.
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在 DMI 梯度影响下操纵二维和三维磁孤子
磁孤子因其固有特性,包括体积小、拓扑稳定、超低功耗操作和潜在的超高速运行,在基于令牌的计算应用中大有可为。特别是,它们已被提议作为可靠的存储单元,能够利用原位存储器执行各种逻辑任务。一个关键的挑战仍然是确定最佳孤子和高效操纵技术。以往的研究主要集中在通过外加电流操纵二维孤子,如天幕、畴壁和涡旋。通过应变、温度梯度和外加电压来控制磁参数(如界面 Dzyaloshinskii-Moriya 相互作用)的新方法的发现,为高能高效地操纵磁结构提供了新途径。在这项研究中,我们采用数值和分析方法对各种磁纹理在 DMI 梯度影响下的稳定性和运动进行了全面研究。我们的研究结果表明,奈尔型和布洛赫型天元以及径向涡旋表现出以有限天元霍尔角为特征的运动,而圆形涡旋则经历驱逐动力学。这项研究加深了对磁孤子稳定性和梯度驱动动力学的重要理解,为设计可扩展的自旋电子令牌式计算设备铺平了道路。
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来源期刊
CiteScore
3.90
自引率
17.60%
发文量
10
审稿时长
12 weeks
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