Abstract
Manipulation of the domain wall propagation in magnetic wires is a key practical task for a number of devices including racetrack memory and magnetic logic. Recently, curvilinear effects emerged as an efficient mean to impact substantially the statics and dynamics of magnetic textures. Here, we demonstrate that the curvilinear form of the exchange interaction of a magnetic helix results in an effective anisotropy term and Dzyaloshinskii–Moriya interaction with a complete set of Lifshitz invariants for a one-dimensional system. In contrast to their planar counterparts, the geometrically induced modifications of the static magnetic texture of the domain walls in magnetic helices offer unconventional means to control the wall dynamics relying on spin-orbit Rashba torque. The chiral symmetry breaking due to the Dzyaloshinskii–Moriya interaction leads to the opposite directions of the domain wall motion in left- or right-handed helices. Furthermore, for the magnetic helices, the emergent effective anisotropy term and Dzyaloshinskii–Moriya interaction can be attributed to the clear geometrical parameters like curvature and torsion offering intuitive understanding of the complex curvilinear effects in magnetism.
Highlights
Assessing spin textures of three-dimensionally curved magnetic thin films[1,2,3], hollow cylinders[4,5,6] or wires[7,8,9,10] has become a dynamic research field
We discuss the consequence of the interplay between the curved geometry of the helical wire with the magnetic texture of the transverse domain walls: (i)
The field h pushes the domain wall and the geometrically induced effective anisotropy is the origin of the Rashba field induced domain wall motion in a magnetic helix
Summary
Assessing spin textures of three-dimensionally curved magnetic thin films[1,2,3], hollow cylinders[4,5,6] or wires[7,8,9,10] has become a dynamic research field These 3D-shaped systems possess striking novel fundamental properties originating from the curvature-driven effects, such as magnetochiral effects[3,11,12,13] and topologically induced magnetization patterns[13,14,15]. The obtained results are general and valid for any thin wire with nonzero torsion
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