Knowing the magnetic structure of crystalline materials is critical to many applications, including data storage, high-resolution imaging, spintronics, superconductivity, and quantum computing.

See more of our trusted coverage when you search. Prefer Newsweek on Google to see more of our trusted coverage when you search. What's New For the first time, scientists have imaged an entirely new ...

Schematic diagrams of the nanostructure and magnetic domain structure of a conventional amorphous soft magnetic ribbon (left) and the newly developed ribbon (right). The new material exhibits a ...

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 ...

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

An international research team, including scientists from the Helmholtz-Zentrum Dresden-Rossendorf (HZDR), has achieved a ...

Scientists have created a metal–organic framework (MOF) that is strongly magnetic but generates no external magnetic field.

Scientists at the U.S. Naval Research Laboratory (NRL) have identified the true source of a magnetic effect seen in the material ruthenium dioxide (RuO₂), helping resolve an active debate in the ...