The BASE collaboration has performed the first demonstration of two-trap sympathetic cooling, promising substantial improvements to studies of antiprotons

Discovery of a new exotic hadron containing two charm quarks and an up and a down antiquark

The ATLAS collaboration announces the first observation of WWW production: the simultaneous creation of three massive W bosons in high-energy LHC collisions

The MoEDAL experiment has conducted the first search at a particle collider for magnetic monopoles produced through the Schwinger mechanism

A new technique speeds up deep neural networks for selecting proton–proton collisions at the Large Hadron Collider for further analysis

A new study shows that a class of new unknown particles that could account for the muon’s magnetism, known as leptoquarks, could also affect the Higgs boson’s transformation into muons

New measurements by the ALICE collaboration show that the way charm quarks form hadrons in proton-proton collisions differs significantly from expectations based on electron collider measurements

The result is a milestone in the study of how a particle known as a D0 meson changes from matter into antimatter and back

The result paves the way for studies of high-energy neutrinos at current and future particle colliders

One of the latest additions to the CAST experiment has set a new limit on the strength of the interaction between photons and hypothetical dark-matter particles called axions