An international team of researchers has developed a new method for parameterizing machine-learning interatomic potentials (MLIP) to simulate magnetic materials, making the prediction of their ...

Researchers have discovered antiferromagnetism in a quasicrystal. The team was led by Ryuji Tamura from the Department of ...

Physicists use the Relativistic Heavy Ion Collider (RHIC) to test key accelerator strategies for the cutting-edge Electron-Ion Collider (EIC). When constructing a cutting-edge particle collider like ...

Quasicrystals (QCs) are fascinating solid materials that exhibit an intriguing atomic arrangement. Unlike regular crystals, ...

Because electrons have a negative charge, this can cause the charge ... This proton-coupled electron transfer (PCET), as it is known, does not produce any change in charge -- the most efficient ...

Quasicrystals are intriguing materials with long-range atomic order that lack periodicity. It has been a longstanding question whether antiferromagnetism, while commonly found in regular crystals, is ...

The researchers discovered that the Au-In-Eu quasicrystal hosts an antiferromagnetic phase due to its unique positive ...

The electron’s antiparticle is the positron, which has a positive charge, as opposed to the electron’s negative charge. But ...

But one aspect – the texture of the metals used – has been historically overlooked.

It's time to examine the numbers to evaluate this volatile stock's trajectory after it climbed 350% in the past year.

Researchers provide the first neutron diffraction proof of antiferromagnetism in an icosahedral quasicrystal, opening new paths in magnetic and spintronic research.