Stabilising curve: The arrows show the remnant magnetisation of a toroidal nanomagnet. On the outer edge (the right) we can see a vortex where the magnetisation spirals inwards to a point. An ...

The mechanism that can cause a rapidly expanding plasma—the superhot state of matter harnessed in fusion energy systems—to ...

Magnons are tiny waves in magnetization that travel through solid magnetic materials, much like the ripples that spread ...

Altermagnets, which exhibit momentum-dependent spin splitting without spin–orbit coupling (SOC) or net magnetization, have recently attracted significant international attention. A team led by Prof.

Ferromagnets are characterized by a magnetization that has long been used to store information. The magnetization is largely due to localized electron spins with their associated magnetic moments ...

Magnetic domains can take on a wide range of structures. In certain soft magnetic materials, they form complex zig-zag patterns known as maze domains. These patterns change in complicated ways as ...

Antiferromagnetic materials, with antiparallel atomic spins and zero net magnetization, are fast and resistant to external ...

Recent breakthroughs show magnetic fields behaving in unexpected ways, from reviving superconductivity in nickelates to self-magnetizing fusion plasmas. These findings challenge long-held assumptions ...