The ATLAS experiment at CERN finds evidence of a rare Higgs boson Dalitz decay to two leptons and a photon

A new study at ISOLDE finds no signature of a “magic” number of neutrons in potassium-51, challenging the proposed magic nature of nuclei with 32 neutrons

The Baryon Antibaryon Symmetry Experiment (BASE) at CERN’s Antimatter Factory has set new limits on how easily axion-like particles could turn into photons

A duo of researchers from CERN and DESY show how data from radio telescopes can be used to search for high-frequency gravitational waves

The bounds are some of the tightest yet on the existence of third-generation leptoquarks

In the seventh part of the “LHC Physics at Ten” series, we look at the surprising phenomena of the Standard Model at high energies

The collaboration shows how proton–proton collisions at the Large Hadron Collider can reveal the strong interaction between composite particles called hadrons

Our sixth story in the LHC Physics at Ten series looks at the precision measurements of the Standard Model made at the Large Hadron Collider

Our fifth story in the LHC Physics at Ten series looks at how the LHC has recreated and greatly advanced our knowledge of the state of matter that is believed to have existed shortly after the Big Bang

The BASE collaboration is developing a transportable antiproton trap to make higher-precision measurements of the properties of antimatter