Conventional electronics process information leveraging the electrical charge of electrons. Over the past few decades, some ...

Ferromagnetic semiconductors (FMSs) combine the unique properties of semiconductors and magnetism, making them ideal candidates for developing spintronic devices that integrate both semiconductor and ...

High magnetic fields have a potential to modify the microscopic arrangement of magnetic moments because they overcome interactions existing in zero field. Usually, high fields exceeding a certain ...

An international team has detected an unusual ferromagnetic property in a two-dimensional system, known as 'easy-plane anisotropy.' This could foster new energy efficient information technologies ...

Magnetic skyrmions are stable quasi-particles that can be generated in (some) ferromagnetic materials with conceivable solutions in electronics, assuming they can be created and moved at will. The ...

The discovery of graphene has motivated scientists to explore a wide range of layered, atomically-thin 2D materials. One of the most astounding discoveries was that such monoatomic layers could be ...

Topological magnetoelectric effect (TME), for example, the topological response of magnetization to an electric field in the same direction, is a hallmark phenomenon of axion insulator from the ...

For decades, cobalt has served as a benchmark ferromagnet. Its crystal structure and magnetic properties have been extensively documented. However, the new findings show that cobalt hosts a rich ...

Researchers demonstrate spontaneous in-plane Hall effect in SrRuO3 films, revealing new insights into electron transport. (Nanowerk News) In a recent breakthrough, researchers from Japan discovered a ...

Researchers utilize the step-flow growth method to develop high-quality (Ga,Fe)Sb ferromagnetic semiconductor with a record-high Curie temperature for spintronics “In the conventional (Ga,Fe)Sb ...