Probing the vibration of atoms provides detailed information on local structure and bonding that define material properties.

A new computational framework maps 3D atomic positions in amorphous materials, achieving full accuracy for silica using simulated electron microscopy data.

Scientists in Germany's Max Planck Institute (MPI) showed that metal surfaces can reshape what atomic motion looks like at ...

New first-principles simulations reveal how metallic surfaces reshape nanoscale vibrational imaging, advancing the ...

The ability to describe the internal structure of atoms is important not only for understanding the composition of matter, but also for designing new experiments to explore fundamental physics.

An algorithm designed to find the most efficient path from atom to atom in a bizarre kind of crystal turns out to produce incredibly intricate mazes. As well as making mazes, the technique could help ...

Using single-atom-resolved microscopy, ultracold quantum gases composed of two types of atoms reveal distinctly different spatial correlations — the bosons on the left exhibit bunching, while the ...

Researchers have uncovered how atoms subtly rearrange themselves for up to a trillionth of a second before releasing ...

I keep coming back to a strange idea: what if everything we know about quantum physics is already encoded inside a single atom? Not in a mystical sense, but in the very real way that one tiny system ...

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