Geometrically stabilized skyrmionic vortex in FeGe tetrahedral nanoparticles.
Kodai NiitsuYizhou LiuAlexander C BoothXiuzhen Z YuNitish MathurMatthew J StoltDaisuke ShindoSong JinJiadong ZangNaoto NagaosaYoshinori TokuraPublished in: Nature materials (2022)
The concept of topology has dramatically expanded the research landscape of magnetism, leading to the discovery of numerous magnetic textures with intriguing topological properties. A magnetic skyrmion is an emergent topological magnetic texture with a string-like structure in three dimensions and a disk-like structure in one and two dimensions. Skyrmions in zero dimensions have remained elusive due to challenges from many competing orders. Here, by combining electron holography and micromagnetic simulations, we uncover the real-space magnetic configurations of a skyrmionic vortex structure confined in a B20-type FeGe tetrahedral nanoparticle. An isolated skyrmionic vortex forms at the ground state and this texture shows excellent robustness against temperature without applying a magnetic field. Our findings shed light on zero-dimensional geometrical confinement as a route to engineer and manipulate individual skyrmionic metastructures.