Artificial intelligence is colliding with a hard physical limit: the energy and heat of today’s silicon-based chips. As ...

Superconductivity and magnetism have long been treated as rivals in condensed matter physics, one thriving on perfect ...

For decades, physicists taught that superconductivity and magnetism could not share the same space. One state should destroy ...

NIMS, in joint research with the University of Tokyo, AIST, the University of Osaka, and Tohoku University, have proposed a ...

A research team affiliated with UNIST has made a advancement in controlling spin-based signals within a new magnetic material ...

As some entities identify new (or at least overlooked) sources to meet the growing demand for rare earth materials, others are looking toward new tools. UK deep-tech company Materials Nexus announced ...

A newly validated magnetic state could open a path toward ultra-fast, high-density memory for future AI and data-center technologies. A collaborative team of researchers from NIMS, the University of ...

With strong bactericidal properties, graphene has the potential to become a game changer in the fight against antibiotic-resistant bacteria. So far there have been no efficient ways to control these ...

A permanent magnet is always magnetic. It has an invisible magnetic field. Only certain materials, such as iron, feel a magnetic force. Permanent magnets can come in lots of different shapes and sizes ...