Researchers examine the structure of the low-energy nuclear states of carbon-12 using nuclear lattice effective field theory.
Researchers examine the structure of the low-energy nuclear states of carbon-12 using nuclear lattice effective field theory.
Scientists translate predictions of hydrodynamics into experimentally observable particle patterns.
Simulations of binary neutron star mergers suggest that future detectors will distinguish between different models of hot nuclear matter.
Jets of particles in quark-gluon plasma from heavy-ion collisions lose energy via radiation, but how they radiate energy depends on the jet’s structure.
UCI astronomer says the discovery scrambles solar system models
Theorists predict differential distribution of 'up' and 'down' quarks within protons—and differential contributions to the proton's properties.
Novel techniques allow the first direct observation of a predicted effect that results in the suppression of gluon radiation emitted by a heavy quark.
Novel techniques allow the first direct observation of a predicted effect that results in the suppression of gluon radiation emitted by a heavy quark.
Clarivate designation includes those who have ‘demonstrated significant and broad influence in their field’
A new system for detecting photons in laser-powered quantum computers brings these systems closer to reality.