Extracting Signs of the Elusive Neutrino
Scientists use software to "develop" images that trace neutrinos' interactions in a bath of cold liquid argon.
Scientists use software to "develop" images that trace neutrinos' interactions in a bath of cold liquid argon.
The MicroBooNE experiment demonstrates the use of machine learning to interpret images made by a liquid-argon particle detector.
New crime scene investigation technique offers a hard look at the traces that particles leave before fleeing the scene.
Scientists developed a method to better distinguish the tracks that particles leave behind in liquid argon.
Researchers demonstrated cryogen-free operation of a superconducting radio-frequency cavity that might ease barriers to its use in societal applications.
Scientists improve our understanding of the relationship between fundamental forces by re-creating the earliest moments of the universe.
CMS observes Higgs boson decays into bottom quarks, furthering our knowledge of how the particles that make up matter behave.
New direct evidence for Higgs interactions with top and bottom quarks confirms its role in generating mass for constituents of matter.
Comparing new prediction to measurements of muons’ precession could potentially help scientists discover new subatomic particles.
Scientists are developing better models that describe both neutrino and antineutrino data, which can offer insights into the nature of the universe.
Neutral pion production is a major character in a story of mistaken identity worthy of an Agatha Christie novel.
MicroBooNE neutrino experiment cuts through the noise, clearing the way for signals made by the hard-to-detect particle.