Artificial intelligence is colliding with a hard physical limit: the energy and heat of today’s silicon-based chips. As models grow from billions to trillions of parameters, the bottleneck is no ...

A new method for combining magnetic elements with semiconductors—which are vital materials for computers and other electronic devices—was unveiled by a research team led by the California NanoSystems ...

A magnetic skyrmion is smaller than a virus, tougher to kill than most magnetic signals, and, if a growing body of laboratory research pans out, could one day store data using a fraction of the energy ...

Molecule-based magnets like vanadium tetracyanoethylene are extremely sensitive to air, impeding their use in practical quantum devices. Researchers coated vanadium tetracyanoethylene with an ...

Add Yahoo as a preferred source to see more of our stories on Google. MIT engineers have developed a magnetic transistor that could pave the way for smaller, faster, and more efficient electronics. By ...

A research team from NIMS, Tohoku University and AIST has developed a new technique for controlling the nanostructures and magnetic domain structures of iron-based soft amorphous ribbons, achieving ...

Schematic illustration of altermagnetism in a single-orientation RuO₂ thin film, depicted based on X-ray magnetic linear dichroism and spin orientations. A joint research team from NIMS, The ...

New research shows that light’s magnetic field is far more influential than scientists once believed. The team found that this magnetic component significantly affects how light rotates as it passes ...

Researchers at Chalmers University of Technology in Sweden published their findings in Advanced Materials, demonstrating a material that allows two competing magnetic forces to coexist within a single ...

A new study in Nature introduces a scalable method for creating magnetorheological fibers and fabrics that actively change shape, stiffness, and motion in response to magnetic fields. This is ...