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

The increasing demand for denser information storage and faster data processing has fuelled a keen interest in exploring spin currents up to terahertz frequencies. The emergent two-dimensional ...

A team of scientists from the Institute of Science Tokyo, led by Professor Pham Nam Hai, has developed a ferromagnetic semiconductor (FMS) that works at higher temperatures than any similar material ...

A team of scientists developed a new machine learning model for discovering critical-element-free permanent magnet materials based on the predicted Curie temperature of new material combinations. A ...

(Nanowerk Spotlight) Magnetism at atomically thin two-dimensional (2D) materials is of essential interest to scientists and engineers since it has the potential to revolutionize modern information ...

Ferromagnetic semiconductors, which combine semiconductor and magnetic properties, are key to developing spin-based devices. Previously studied materials, such as (Ga,Mn)As, have Curie temperatures ...

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 ...