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Dynamics of antiferromagnetic skyrmions in the absence or presence of pinning defects

Zuanming Jin, T. T. Liu, W. H. Li, X. M. Zhang, Zhipeng Hou, Deyang Chen, Zhen Fan, Min Zeng, Xubing Lu, Xingsen Gao, Minghui Qin, J.-M. Liu

2020Physical review. B./Physical review. B31 citationsDOIOpen Access PDF

Abstract

A theoretical study on the dynamics of an antiferromagnetic (AFM) skyrmion is indispensable for revealing the underlying physics and understanding the numerical and experimental observations. In this work, we present a reliable theoretical treatment of the spin-current induced motion of an AFM skyrmion in the absence and presence of pinning defect. For an ideal AFM system free of defect, the skyrmion motion velocity as a function of the intrinsic parameters can be derived, based on the concept that the skyrmion profile agrees well with the ${360}^{\ensuremath{\circ}}$ domain-wall formula, leading to an explicit description of the skyrmion dynamics. However, for an AFM lattice containing a defect, the skyrmion can be pinned and the depinning field as a function of damping constant and pinning strength can be described by Thiele's approach. It is revealed that the depinning behavior can be remarkably influenced by the time-dependent oscillation of the skyrmion trajectory. The present theory provides a comprehensive scenario for manipulating the dynamics of AFM skyrmion, informative for future spintronic applications based on antiferromagnets.

Topics & Concepts

SkyrmionCondensed matter physicsPhysicsSpintronicsAntiferromagnetismDynamics (music)Oscillation (cell signaling)Lattice (music)Pinning forceWork (physics)Spin (aerodynamics)Domain wall (magnetism)Magnetic fieldChemistryQuantum mechanicsMagnetizationFerromagnetismCritical currentBiochemistryAcousticsSuperconductivityThermodynamicsMagnetic properties of thin filmsPhysics of Superconductivity and MagnetismAcoustic Wave Resonator Technologies
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