Experiment at Oak Ridge National Laboratory’s High Flux Isotope Reactor precisely measures the antineutrino energy spectrum.
Modern nuclear theory predicts that nucleons appear less “squishy” when probed with neutrinos than was previously inferred from experimental data.
The MINERvA experiment in the NuMI beam at Fermilab has made the first accurate image of the proton using neutrinos instead of light as the probe.
A novel experiment sheds new light on a possible mechanism that may seed magnetic fields for the galactic dynamo.
Noise estimation circuits, in conjunction with other error mitigation methods, produce reliable results for quantum computer-based materials simulations
Ground-breaking image reconstruction and analysis algorithms filter out cosmic rays to pinpoint elusive neutrinos.
Harnessing the intensity of a terahertz laser pulse brings the resolution of electron scattering closer to the scale of electron and proton motion.
The Dark Energy Survey has delivered dark energy constraints combining information from four of its primary cosmological probes for the first time, an approach that may help design other experiments into cosmic acceleration.
Read more about Survey Delivers on Dark Energy with Multiple Probes
Researchers demonstrated record accelerating cavity performance using a technique that could lead to significant cost savings.
Beam chopper cuts accelerator-generated ion beams under highly demanding conditions.
Successful models of the fraught dynamics of two particle beams in close contact lead to smoother sailing in an area of particle acceleration.
Scientists use software to "develop" images that trace neutrinos' interactions in a bath of cold liquid argon.
