In a new Nature Physics study, scientists use quantum simulations to study the interaction between subatomic particles.

Discover the fascinating world of particle physics — the most fundamental building blocks of the universe and the forces that connect them.

At Fermilab, US physicists are refining their measurements of this subatomic particle—which has major implications for the Standard Model.

And this extra wobble tests the holy grail of particle physics known as the Standard Model, which is a theory that explains everything we know about subatomic particles - basically the building ...

The peculiar wobble of a subatomic particle called a muon in a U.S. laboratory experiment is making scientists increasingly suspect they are missing something in their understanding of physics ...

This effect has been predicted by the Standard Model of physics and observed experimentally in subatomic particles called mesons more than 60 years ago, but never previously observed in baryons.

Science Subatomic muon particles' weird wobble might break the laws of physics Something unseen is influencing muons, and the findings could lead to a bigger quantum uproar than the Higgs boson did.

The Standard Model organizes the subatomic world into two broad categories of particles, known as fermions and bosons, according to the University of Tennessee, Knoxville.

Quantum physics is one of the most fascinating and perplexing fields of science, unlocking the deepest secrets of the universe. In this video, we take you on a visual journey through the Map of ...

How particle detectors capture matter’s hidden, beautiful reality Old and new detectors trace the whirling paths of subatomic particles ...

Now, archeologists are joining forces with physicists, trading their pickaxes for subatomic particle detectors about the size of a household microwave. Thanks to breakthrough technology, particle ...

These subatomic particles are governed by the quantum nature of the Universe and find tangible, physical form in experimental results.