Using advanced lattice quantum chromodynamics methods, researchers brought theory and experiment into near-perfect agreement, closing one of the most promising avenues for discovering a 'fifth force'.

The theory of Quantum Chromodynamics (QCD) underpins our understanding of the strong interaction, governing how quarks and gluons interact to form hadrons. One of the most promising nonperturbative ...

Lattice quantum chromodynamics (QCD) has emerged as an essential framework for investigating the non-perturbative dynamics of strong interactions by discretising spacetime into a finite lattice. This ...

Combining LaMET with phenomenological modeling using global constraints from SDE can offer accurate state-of-the-art lattice quantum chromodynamics of PDFs, offering a new approach for first-principle ...

Our account of the strong nuclear force is full of imaginative terms. Six flavors of quarks have color charges of red, green and blue, which dictate how they bind to form particles like protons and ...

An international team has produced the most precise calculation yet of the muon's magnetic moment, resolving a decades-long discrepancy with experimental results. The new hybrid method, combining ...