凝聚态物理
铁磁性
涡流
超导电性
异质结
领域(数学分析)
磁畴壁(磁性)
物理
量子力学
磁场
数学
磁化
机械
数学分析
作者
Sebastián A. Díaz,Jonas Nothhelfer,Kjetil M. D. Hals,Karin Everschor‐Sitte
出处
期刊:Physical review
[American Physical Society]
日期:2024-05-10
卷期号:109 (20)
被引量:1
标识
DOI:10.1103/physrevb.109.l201110
摘要
Vortices are pointlike topological defects in superconductors whose motion dictates superconducting properties and controls device performance. In superconductor-ferromagnet heterostructures, vortices interact with topological defects in the ferromagnet such as linelike domain walls. While in previous heterostructure generations, vortex-domain wall interactions were mediated by stray fields; in new heterostructure families, more important become exchange fields and spin-orbit coupling. However, spin-orbit coupling's role in vortex-domain wall interactions remains unexplored. Here we uncover, via numerical simulations and Ginzburg-Landau theory, that Rashba spin-orbit coupling induces magnetoelectric interactions between vortices and domain walls that crucially depend on the wall's winding direction---its helicity. The wall's helicity controls whether vortices are pushed or dragged by N\'eel walls, and their gliding direction along Bloch walls. Our work capitalizes on interactions between topological defects from different order parameters and of different dimensionality to engineer enhanced functionality.
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