Developed by researchers at MIT, the method uses the atom’s own electrons as “messengers” within a molecule to help probe ...

Why did they form at that time? Astronomers know from observing distant exploding stars that the size of the universe has ...

MIT researchers have devised a new molecular technique that lets electrons probe inside atomic nuclei, replacing massive particle accelerators with a tabletop setup. By studying radium monofluoride, ...

Physicists at MIT have developed a new way to probe inside an atom's nucleus, using the atom's own electrons as "messengers" ...

The origins of extremely high-energy particles that fill the universe—such as protons, electrons, and neutrinos—remain one of ...

Real particles are lumps of energy that can be "seen" or detected by appropriate instruments; this feature is what makes them ...

Wastewater can replace clean water as a source for hydrogen production, eliminating a major drawback to hydrogen fuel and ...

A study shows electrons escape solids only through quantum doorways that appear in layered materials, changing how we ...

As the collapsed core of a massive star, a neutron star is a small but incredibly dense object, packing up to three times the ...

Atoms, in turn, are made of small positively charged particles called protons found at their core, surrounded by even smaller negatively charged particles called electrons. Physicists use virtual ...