A novel approach that re-examines observational data without relying on prior assumptions, using the framework of lattice QCD ...

Technology is being pushed to its very limits. The upgrades to the Large Hadron Collider (LHC) at CERN slated for the next ...

Using the full proton–proton collision dataset from LHC Run 2 ... targets collisions in which the two W bosons decay into an electron or a muon and their respective neutrinos.

Although our universe is mostly normal matter, antimatter isn’t so hard to create — supernovae, black holes, and even bananas ...

Among other things, the EIC will compare jets emerging from electron-proton collisions with jets emerging from electron-nucleus collisions. These experiments will explore how far the quantum effec ...

A neutrino telescope found a neutrino, which is what it's supposed to do. But why did this mysterious particle have much more ...

At the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab), we're engineering and deploying ...

First, an electron-positron collider, capable of producing vast numbers of Higgs bosons to study them with unprecedented precision. Then, an even more ambitious phase: a proton-proton collider ...

Discover the future of physics with the proposed Future Circular Collider, promising new particles and answers to universe ...

And it had traveled from somewhere far beyond our galaxy.

Semiconductors designed for spacecraft face a range of extreme conditions that impact aging. A reliable source of power is ...