D. Mitin

TL;DR: It is shown that the coercivity values reach a maximum for the array of antidots with a separation length close to the domain wall width, and the impact of edge effects on the magnetic anisotropy energy is shown.

TL;DR: In this paper, the reversal characteristics of magnetic vortex cores in a two-dimensional assembly of magnetic vortices were investigated by employing a write/read tester, and successful writing and reading of individual vortex cores was demonstrated, including a switching map, which indicates the switching behavior dependent on the relative position of the field pulse with respect to the vortex core.

TL;DR: The influence of magnetic coupling locally is studied by in-field scanning magne to-resistive microscopy and full-field magnetic soft x-ray microscopy, revealing a domain-like nucleation process of vortex states, which arises via domain wall propagation due to exchange coupling of the closely packed structures.

TL;DR: A highly versatile and scalable path to obtain buried magnetic nanostructures within alloy thin films, while maintaining a flat topography, is described and shows that the obtained magnetic structures are well defined, with the magnetic behavior tunable via the mask geometry.