For the first time, a research team from the University of Cologne has observed the electron capture decay of technetium-98, ...

The hyperfine structure of radium monofluoride has been measured by researchers in the US and elsewhere with such precision ...

High-speed atomic force microscopy (HS-AFM) is the only experimental technique to directly watch proteins in dynamic action.

Scientists have taken another giant step towards building the most precise clock ever imagined—one that could display not only the passage of time, but shifting rules of nature itself. An ...

New studies of the “platypus of materials” help explain how their atoms arrange themselves into orderly, but nonrepeating, patterns.

Penn State scientists have unveiled a new theory-driven method to predict superconductors, offering a possible path toward ...

Douthat: It’s worth noting that your company is named for seeing stones used to view things at a very long distance in J.R.R.

The developers of OpenFold3 have released an early version of the tool, which they hope will one day perform on par with DeepMind’s protein-structure model.

When a metal-organic framework melts into glass, it becomes magnetic at room temperature, showing that atomic disorder can ...

When machine learning is used to suggest new potential scientific insights or directions, algorithms sometimes offer ...

Frogs have made significant contributions to Fred Hutch science over the years as a model organism that shares much of our ...

In the global race to decarbonize, hydrogen stands out as one of the most promising clean fuels. But despite its potential to power industries and transportation without emitting carbon, producing ...