Scientists from Germany's DESY have come up with a two-stage correction approach to speed up electrons just like they do with ...

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

A new class of semiconductors that can store information in electric fields could enable computers that run on less power, ...

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

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 ...

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 mechanism holding new ferroelectric semiconductors together produces a conductive pathway that could enable high power transistorsZetian Mi (left ...

Silicon photonics revolutionizes data transmission with faster, more efficient lasers integrated on silicon wafers.

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

The technology, called Single-Molecule Atomic-Resolution Time-resolved Electron Microscopy (SMART-EM for short), lets scientists observe individual atoms and molecules as they interact during chemical ...

Despite decades of searching for this signal, astronomers have yet to find it. The problem is that our Earth is too noisy, making it nearly impossible to capture this whisper. The solution is to go to ...