Influence of shape, size and internal structure on magnetic properties of core-edge nanodots with perpendicular anisotropy

Abstract: The properties of perpendicularly magnetized isolated nanodots different in shape, size, and internal structure are simulated by micromagnetic calculations. Investigated dots are magnetically uniform, or they are composed of a core and an edge characterized by different anisotropystronger or weaker than that of the core. Based on calculated hysteresis loops, we discuss in details the magnetization reversal processes, stability of magnetic structures, and spin configurations in the dots. V C 2014 AIP Publishing… Show more

“…4) suggest that the magnetic anisotropy of the areas of the wires close to the edges is weaker than in their centers [37]. This is consistent with the thickness profile shown in Fig.…”

Magnetic domain propagation in Pt/Co/Pt micro wires with engineered coercivity gradients along and across the wire

“…4) suggest that the magnetic anisotropy of the areas of the wires close to the edges is weaker than in their centers [37]. This is consistent with the thickness profile shown in Fig.…”

Magnetic domain propagation in Pt/Co/Pt micro wires with engineered coercivity gradients along and across the wire

“…At the same time, most theoretical papers investigating the SWs in MCs consider structures with sharp interfaces. 1,2,5,[14][15][16][17] However, in some cases, this assumption is a severe idealization, and other models should be used instead. For example, in Ref.…”

Influence of nonmagnetic dielectric spacers on the spin-wave response of one-dimensional planar magnonic crystals

Micromagnetic study of the effect of Dzyaloshinskii-Moriya interaction on magnetization reversal in magnetic nanodots of different shape