Phase-field method, as a powerful and popular approach to predict the mesoscale
microstructure evolution in various materials science, provides a bridge from atomic-scale …

In situ electrical control of the Dzyaloshinskii–Moriya interaction (DMI) is one of the central
but challenging goals toward skyrmion‐based device applications. An atomic design of …

Topological magnetic structures in ferromagnetic materials have attracted considerable
attention due to their interesting physics and potential applications in devices …

Pipeline systems, such as oil and natural gas pipelines, which are normally buried
underground or distributed under the sea, are susceptible to corrosion and pressure …

Electric-field control of topological spin textures in BiFeO3/La0.67Sr0.33MnO3 heterostructure at
room temperature | Rare Metals Skip to main content Springer Nature Link Account Menu Find a …

A displacement perturbation method is proposed for phase-field simulations of the
ferroelectric domain structures. A temperature-misfit strain phase diagram is computed to …

The interaction between acoustic wave and magnetization in ferromagnetic thin films has
attracted great attention due to its interesting physics and potential applications. However …

Antivortices have potential applications in future nano-functional devices, yet the formation
of isolated antivortices traditionally requires nanoscale dimensions and near-zero …

Patterning of three-dimensional chiral nanostructures is an emerging route to engineering
complex magnetization textures in magnetic systems, leading to a host of new physics and …

The magnetic radial vortex is a nanoscale magnetization configuration that is typically
stabilized by the interfacial Dzyaloshinskii–Moriya interaction (i-DMI). The existing control …