The new calculation, made at the Large Hadron Collider (LHC) near Geneva, could help solve a niggling mystery about this ...

A new calculation helps narrow down the mass of the W boson, one of the heaviest fundamental particles in the universe ...

When fundamental particles are heavier or lighter than expected, physicists' understanding of the universe can tip into the ...

Nearly every object we interact with in our lives has a mass, but where does this mass come from? Modern physics says matter ...

Researchers investigated how the η′ meson behaves inside atomic nuclei and found evidence that it may form bound states known as η′-mesic nuclei. Using high-energy particle experiments and ...

For decades, scientists have tried and failed to explain how the force that binds the heart of atoms together really works.

An international research team has found evidence of the existence of an exotic atomic nucleus state in an experiment at the ...

Astronomers are adding the instrument to the suite of telescopes at the University’s Fan Mountain Observatory.

For over two decades, the 300-million-year-old fossil Pohlsepia mazonensis was celebrated as the world’s oldest octopus ...

Primordial Black Holes Matter Origin may explain why matter exists. New research links early Universe shock waves to ...

By tracing the origins of an unusual, short-lived particle, researchers have gathered some of the strongest evidence yet that ...