“Finding this coexistence of magnetic orders in a single, thin material is a breakthrough. Its properties make it exceptionally well-suited for developing ultra-efficient memory chips for AI, mobile ...

Since their relatively recent appearance on the commercial scene, rare-earth magnets have made quite a splash in the public imagination. The amount of magnetic energy packed into these tiny, shiny ...

Engineering atom interactions inside an artificial quantum material resulted in a new quantum state: the higher-order topological magnet. When different quantum states combine, new collective states ...

Scientists tracked an atom's nuclear spin in real time with a tunneling microscope, finding it stable for seconds, opening paths to better magnetic control. (Nanowerk News) Researchers from Delft ...

A single speck of light—captured inside a lab at Oxford—turned the abstract into the tangible. It didn’t just win a prize; it ...

Four years ago a promising young physicist from the University of California, Ernest Orlando Lawrence, left his sunny campus and the ramshackle old building in which he was working, traveled eastward ...

Artist impression, based on actual measurement data, of the nuclear spin of an atom flipping between distinct quantum states. The flipping was observed as a fluctuation in the electrical current ...