A team led by Ryo Shimano at the University of Tokyo has directly observed how electron spins flip inside an antiferromagnet, a material in which ...

Researchers at the University of Chicago Pritzker School of Molecular Engineering have made unexpected progress toward developing a new optical memory that can quickly and energy-efficiently store and ...

Most materials we use in everyday life expand slightly when heated and return to their original size when cooled. In addition ...

Researchers at Massachusetts Institute of Technology have demonstrated an entirely new form of magnetism in a synthesized crystalline material. They're calling it p-wave magnetism. This discovery is ...

Researchers demonstrate a new strategy for magnetization reversal in multiferroic materials, opening pathways to more energy-efficient electronics. (Nanowerk News) As the digital world demands greater ...

Researchers have created a molecule that can store magnetic data at record-high temperatures, potentially reshaping how digital information is archived. The molecule, based on the rare earth element ...

A new class of magnetism called altermagnetism has been imaged for the first time in a new study. The findings could lead to the development of new magnetic memory devices with the potential to ...

A new study reveals that insulating buffer layers are no longer needed for ultrathin magnetic racetrack devices, unlocking new paths for seamless integration with functional substrates. (Nanowerk News ...

A research team affiliated with UNIST announced the successful development of a novel semiconductor device that uses a new class of materials, known as altermagnetism. This breakthrough is expected to ...

Over on his blog our hacker [Scott Baker] has a Magnetic Bubble Memory Mega-Post. If you haven’t heard of magnetic bubble memory before it’s basically obsolete nonvolatile memory. Since the 1970s when ...

The discovery of electric-field-induced magnetization reversal perpendicular to the electric field in multiferroic materials could revolutionize memory design, enabling more space- and ...