“If we can better control these structures, we can develop a whole new class of magnetic materials while reducing our ...

Scientists found a way to control magnetism in ultra-thin materials using CrPS₄, opening the door to more compact and ...

A research team from the High Magnetic Field Laboratory, the Hefei Institutes of Physical Science of the Chinese Academy of ...

"Transitional millisecond pulsars are cosmic laboratories that help us understand how neutron stars evolve in binary systems." ...

Researchers have found the first new type of magnet in nearly a century. Now, these strange "altermagnets" could help us ...

The degradation of magnetization in next-generation memory devices can be reversed using a novel processing technique ...

These findings enhance our understanding of SOT switching in FMS films with diverse IP anisotropy, paving the way for developing advanced SOT-based spintronics devices.

Topologically stable magnetic skyrmion has a much lower depinning current density that may be useful for memory as well as neuromorphic computing. However, skyrmion-based devices suffer from the ...

Modern low-power solutions to computer memory rely heavily on the manipulation of the magnetic properties of materials.

Researchers use hydrogen's catalytic action in platinum to reverse magnetization loss, boosting durability of thin-film magnetic materials for chip tech.

The device investigated in this study consisted of a Co/MgO structure with underlayers formed of Pt or Au. Pt is a promising material for improving the robustness of spintronics devices, as it is ...

Discover how spintronics and graphene enable ultra-thin, energy-efficient quantum circuits and computing breakthroughs.