In magnetic materials, the geometrically-broken symmetry provides a new toolbox to change magnetic responses relying on effects extrinsic to the material: curvature-induced anisotropy and chiral responses. In 3D nanomagnetism, of especial interest are artificial 3D frustrated systems, topology- and curvature-induced effects in complex-shaped 3D nano-architectures, and the dynamics of spin waves in 3D magnonic networks.
In superconductors, curvilinear geometry gives rise to topologically nontrivial screening currents and confinement potentials that stipulate the occurrence of different patterns of topological defects of the superconducting order parameter (Abrikosov vortices) and slips of its phase. The extension of superconducting nanostructures into the third dimension has already been demonstrated to improve the performance of superconducting quantum interference devices (SQUIDs), microwave bolometers and it advances investigations of 3D fluxonic circuits.
You can read the full press release here.
- New Dimension in Magnetism and Superconductivity:
3D and Curvilinear Nanoarchitectures
D. Makarov, O. Volkov, A. Kákay, O. Pylypovskyi, B. Budinská, O. Dobrovolskiy
Adv. Mater. 2101758 (2021)