Magnetic domain walls, the narrow boundaries that separate tiny regions of opposing magnetization inside a material, were ...

For the first time, researchers have mapped how the boundaries of magnetic nanostructures behave on extremely short timescales. The work of physicist Johan Mentink of Radboud University shows that ...

For observers on Earth, the sun appears as a bright, familiar disk—but what we see is only half the story. Like the moon, one ...

Survey has successfully covered over 20 kilometers of prospective DKF-NPF contact in the area of a clear and prominent domal ...

Magnetic domains can take on a wide range of structures. In certain soft magnetic materials, they form complex zig-zag ...

Maze magnetic domains in soft magnetic materials strongly influence energy loss in electric motors, particularly at high ...

The rapid increase in electric vehicle adoption in recent years has highlighted a crucial issue: the energy conversion ...

Researchers develop a new computational model that helps identify origin of complex magnetization reversal in soft magnets.

The rapid increase in electric vehicle adoption in recent years has highlighted a crucial issue: the energy conversion efficiency of electric motors ...

The Kerr effect causes polarized light to rotate after interacting with magnetic domains in a material and enables the investigation of magnetized samples using Kerr microscopy. This method allows the ...

Deep inside the Milky Way, an invisible force is quietly holding everything together — its magnetic field. Now, researchers have created one of the most detailed maps ever of this hidden structure, ...

Saturn’s moon Enceladus has long fascinated scientists for its towering geysers and hidden ocean, but new research suggests this small icy world influences Saturn far more than previously understood.