Direct observation of magnetization dynamics in 3D DNA-like nanostructures reveals resonant oscillations and a rich mode spectrum, with simulations showing that geometry can serve as a powerful tuning parameter.
In collaboration with scientists in Germany, EPFL researchers have demonstrated that the spiral geometry of tiny, twisted magnetic tubes can be leveraged to transmit data based on quasiparticles called magnons, rather than electrons.
An international team led by MPI-CPfS researchers has provided experimental evidence of bulk altermagnetism in MnTe. Using resonant X-ray nanoimaging, they resolved magnetic domains and confirmed their altermagnetic nature, establishing a powerful tool for future 3D and real-time studies of magnetic textures.
An international team has pioneered a nano-3D printing method to create superconducting nanostructures, leading to groundbreaking technological advancements.
Congratulations to Rikako Yamamoto, who has been awarded an Overseas Research Fellowships by the Japan Society for the Promotion of Science (JSPS) in the Spin3D group!
The macroscopic properties of a material are determined by its composition and microstructure. Researchers have developed a new technique to map three-dimensional nanoscale orientation fields across the volume of materials, opening the possibility to understand the evolution of nanoscale variations in microstructure and ferroic order within a wide variety of materials.
