Imagine computer hardware that is blazing fast and stores more data in less space. That's the promise of antiferromagnets, ...

Key points Shaped like the Australian coastline, the Australia Magnetic Anomaly is a concealed magnetic geological feature ...

A research team at Fudan University in Shanghai has achieved a breakthrough in the study of a class of magnetic materials ...

Scientists have developed a new method for creating three-dimensional nanoscale devices directly from single crystal ...

Scientists from the RIKEN Center for Emergent Matter Science and colleagues have developed a new way to fabricate three-dimensional nanoscale devices from single-crystal materials using a focused ion ...

The key to future technologies can sometimes be found in the past. What Ravi Kishore is working to perfect, for example, has ...

Unlike conventional layered antiferromagnets, in which magnetic layers flip one by one and can disrupt the overall magnetic state, the newly studied material switches in an "interlayer-locked" manner.

Scientists have shown that twisting a crystal at the nanoscale can turn it into a tiny, reversible diode, hinting at a new era of shape-engineered electronics.

Scientists from the RIKEN Center for Emergent Matter Science and colleagues have developed a new way to fabricate three-dimensional nanoscale devices ...

Variable flux permanent magnet machines represent a dynamic class of electrical machines in which the air-gap magnetic flux can be actively adjusted during operation. This flexibility permits improved ...

An international group of researchers has found that chiral phonons can create orbital current without needing magnetic elements – in part because chiral phonons have their own magnetic moments.