Add to ORKGThe vortex core shape in the three dimensional Heisenberg magnet is essentially influenced by a surface anisotropy. We predict that depending of the surface anisotropy type there appears barrel – or pillow–shaped deformation of the vortex core along the magnet thickness. Our theoretical study is well confirmed by spin-lattice simulations. 1
High fraction of the surface atoms considerably enhances the influence of size and shape on the magn...
The spin-wave mode of a magnetic vortex (MV) structure is a fascinating topic in magnetism for devel...
In this work, the magnetic states in ultrathin helimagnet nanorings were investigated using a Monte ...
Geometric curvature of nanoscale magnetic shells brings about curvature-induced anisotropy and Dzyal...
Exchange-coupled magnets are promising candidates for a new generation of permanent magnets. Here, w...
We show that pinning of surface spins affects the hysteresis properties of the core-shell magnetic n...
AbstractThe magnetic configuration of micron-sized Co60Fe40 and Permalloy disks was investigated usi...
2009-2010 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
We have investigated the influence of anisotropic exchange on the micromagnetic domain structure. Th...
Spin structures including domain walls and magnetic vortices have attracted enormous interests not o...
The present work studies the effects of inducing a strain gradient on micron-sized Galfenol and nick...
We study magnetic vortex-like excitations lying on a conic space background. Two types of them are o...
In nanopatterned thin film of soft-ferromagnetic materials, a flux-closure domain structure such as ...
Finite-element micromagnetic simulations are employed to study the chiral symmetry breaking of magne...
Three-dimensional linear spin-wave eigenmodes of a vortex-state Permalloy disk are studied by microm...
High fraction of the surface atoms considerably enhances the influence of size and shape on the magn...
The spin-wave mode of a magnetic vortex (MV) structure is a fascinating topic in magnetism for devel...
In this work, the magnetic states in ultrathin helimagnet nanorings were investigated using a Monte ...
Geometric curvature of nanoscale magnetic shells brings about curvature-induced anisotropy and Dzyal...
Exchange-coupled magnets are promising candidates for a new generation of permanent magnets. Here, w...
We show that pinning of surface spins affects the hysteresis properties of the core-shell magnetic n...
AbstractThe magnetic configuration of micron-sized Co60Fe40 and Permalloy disks was investigated usi...
2009-2010 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
We have investigated the influence of anisotropic exchange on the micromagnetic domain structure. Th...
Spin structures including domain walls and magnetic vortices have attracted enormous interests not o...
The present work studies the effects of inducing a strain gradient on micron-sized Galfenol and nick...
We study magnetic vortex-like excitations lying on a conic space background. Two types of them are o...
In nanopatterned thin film of soft-ferromagnetic materials, a flux-closure domain structure such as ...
Finite-element micromagnetic simulations are employed to study the chiral symmetry breaking of magne...
Three-dimensional linear spin-wave eigenmodes of a vortex-state Permalloy disk are studied by microm...
High fraction of the surface atoms considerably enhances the influence of size and shape on the magn...
The spin-wave mode of a magnetic vortex (MV) structure is a fascinating topic in magnetism for devel...
In this work, the magnetic states in ultrathin helimagnet nanorings were investigated using a Monte ...