Altermagnets, which exhibit momentum-dependent spin splitting without spin–orbit coupling (SOC) or net magnetization, have recently attracted significant international attention. The realization and ...

Magnons are tiny waves in magnetization that travel through solid magnetic materials, much like the ripples that spread ...

Consequently, this energy transfer causes the rearrangement into a magnetic structure, which is stabilized by the subsequent rapid cooling. In follow-up experiments, the researchers aim to observe ...

Magnetic domains can take on a wide range of structures. In certain soft magnetic materials, they form complex zig-zag ...

Scientists have determined the laser intensity threshold that causes expanding fusion plasmas to quickly generate strong magnetic fields. Detailed simulations tracked how these fields form within a ...

Researchers developed 3D printed, muscle-inspired magnetic actuators that push, pull, crawl, and grasp. The research paper describes a family of soft actuators that convert applied magnetic fields ...

Using the circular vibration of surface acoustic waves, a collaborative research group have successfully controlled the magnetization of a ferromagnetic thin film. Using the circular vibration of ...

Researchers did this by mixing bismuth ferrite with barium titanate while growing the material as a thin film on a substrate ...

Researchers have identified the mechanism by which high-powered lasers can cause rapidly expanding plasmas to self-generate strong magnetic fields within a billionth of a second. The simulations show ...

Altermagnets, which exhibit momentum-dependent spin splitting without spin–orbit coupling (SOC) or net magnetization, have recently attracted significant international attention. A team led by Prof.