Physicists at the European Organization for Nuclear Research (CERN) use AI to search for subatomic particle evidence. CERN ...

An undisputed success of the Large Hardon Collider (LHC) is the discovery of the last missing element of the Standard Model: ...

The majority of our evidence for dark matter’s existence comes from observing visible (or baryonic) matter that does not ...

The complete Standard Model took a long time to build. Physicist J.J. Thomson discovered the electron in 1897, and scientists at the Large Hadron Collider found the final piece of the puzzle, the ...

More than a decade after its groundbreaking discovery, the Higgs boson continues to captivate the scientific community. This elusive particle, famously nicknamed the “God particle,” plays ... Continue ...

Join six leading experts to find out everything we know about the subatomic universe. Take a deep dive into the building blocks of the universe, from the atom to the standard model, and learn how ...

If a fermion, such as a quark or lepton produces a boson, which is then taken in by another fermion, then a force exists between the two fermions. The Higgs boson is responsible for the mass of ...

Dark matter can't be too heavy or it might break our best model of the universe ... regular particles through exchanges involving the Higgs boson — a fundamental particle that interacts with ...

The underlying theoretical construct in particle physics is called the Standard Model and it contains 6 quarks, 6 leptons, 4 gauge bosons, and one scalar boson (the Higgs boson), which interact ...

The Large Hadron Collider (LHC) made its groundbreaking discovery of the Higgs boson in 2012 ... would shape the foundations of the Standard Model. More information: Luisa Bonolis et al, Raoul ...

Language models can improve physics measurements by accurately identifying jets from hadronically decaying tau leptons, while ...