Existence and stability of skyrmion bags in thin magnetic films
Charles Kind, Sven Friedemann, Dan Read
Abstract
Skyrmion bags are spin textures of any integer topological degree, realized in micromagnetic simulations and experimentally in liquid crystals. They have been proposed as a promising new form of magnetic data storage due to their stability with respect to perturbations and the possibility of encoding different values in topologically distinct magnetization configurations. We simulate skyrmion bags in magnetic thin films having a range of physically realistic material parameters. The results give a range over which stable skyrmion bags may be found in experiment, and we extract a relationship to help guide the production of these potentially useful quasiparticles.
Topics & Concepts
SkyrmionQuasiparticleThin filmCondensed matter physicsMagnetizationRange (aeronautics)Stability (learning theory)Spin (aerodynamics)Magnetic storagePhysicsMicromagneticsMaterials scienceMagnetic fieldNanotechnologySuperconductivityComputer scienceQuantum mechanicsThermodynamicsComposite materialMachine learningMagnetic properties of thin filmsCharacterization and Applications of Magnetic NanoparticlesTheoretical and Computational Physics