Artificial Intelligence (AI) is making significant strides in the realm of physics, demonstrating immense potential across ...

What do quarks, electrons, and photons have in common? They’re all part of the Standard Model - the theory that helped ...

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

Particle physics has always proceeded in two ways, of which new particles is one. The other is by making very precise measurements that test the predictions of theories and look for deviations ...

Matter-antimatter asymmetry puzzles physicists. Learn how the Deep Underground Neutrino Experiment (DUNE) may find answers.

The particles oscillate among three "flavors" predicted by the hugely successful standard model of particle physics: electron, muon and tau.

If this particle really exists, then it is not just outside the standard model but outside it in a way that nobody anticipated.

New experiments that rely on very large machines have begun to probe the weak points of particle physics.

Recently, a series of precise measurements of already known, bog-standard particles and processes have threatened to shake up physics.

Roger Jones on why creating a new model to explain particle physics will help us delve deep into the universe’s mysteries ...

According to the standard model, this shouldn’t happen—hinting that new particles or even forces of nature may influence the process.