Mapping skyrmion stability in uniaxial lacunar spinel magnets from first principles
Daniil A. Kitchaev, Emily C. Schueller, Anton Van der Ven
Abstract
The development of bulk materials that stabilize magnetic skyrmions over a wide range of temperatures is instrumental to the development of spintronic devices based on these phases. Using electronic structure calculations, Monte Carlo simulations, and thermodynamic sensitivity analysis, the authors relate the thermal stability of skyrmions in Ga$M$${}_{4}$$X$${}_{8}$ lacunar spinels to the crystal symmetry, and conclude that thermally robust skyrmions may be expected in a wide range of materials with C${}_{n\phantom{\rule{0}{0ex}}v}$, D${}_{2d}$, or S${}_{4}$ symmetry and low magnetocrystalline anisotropy.
Topics & Concepts
SkyrmionMagnetocrystalline anisotropySpinelSpintronicsCondensed matter physicsMagnetMonte Carlo methodMaterials scienceSymmetry (geometry)AnisotropyRange (aeronautics)ThermalPhysicsMagnetic anisotropyFerromagnetismMagnetic fieldMagnetizationThermodynamicsOpticsMetallurgyGeometryQuantum mechanicsStatisticsMathematicsComposite materialMagnetic and transport properties of perovskites and related materialsMagnetic properties of thin filmsPhysics of Superconductivity and Magnetism