The study, led by Xiaochen Jin, used machine learning to determine that the atomic structure of Group 4 alloys, which ...

Researchers with the Department of Energy's Oak Ridge National Laboratory and the University of Tennessee, Knoxville, have ...

Atoms in semiconductors do not mix randomly. Understanding these patterns could open possibilities for future devices.

Advanced microscopy proves that dilute elements in semiconductors have preferred arrangements, not just random distribution.

Humans have been making metal alloys for thousands of years, and most of us can conjure a rough mental image of the ...

A team led by Berkeley and GWU working with the U of A's Center for Manipulation of Atomic Ordering for Manufacturing Semiconductors confirmed that atoms in semiconductors arrange themselves in ...

With the help of magnetic coils and carefully aligned beams, they managed to trap over a million atoms and cool them down to ...

Researchers have created an innovative method to visualize and analyze atomic structures within specially designed, ultrathin ...

I’ve been studying the early history of electricity’s discovery as a map for our current discovery of artificial intelligence. The smartest people alive back then, including Isaac Newton, who may have ...

Asteroid ‘Families’ Reveal Hidden Histories and Impact Risks across the Solar System ...

Scientists unlock a room-temperature way to make high-entropy alloys, with potential for batteries and rare mineral recovery.