The MiniBooNE experiment has detected far more electron neutrinos than predicted: a possible harbinger of a revolutionary new elementary particle called the sterile neutrino.
Working at the same place in similar fields, Michael S. Smith and Chang-Hong Yu enjoy a situation not too unusual among married couples. Not so ordinary is their line of work.
The article at the top of the spires lists of the most-cited articles in high-energy physics is, as always, the Review of Particle Physics (RPP), a compendium of experimental data and reviews put out by the Particle Data Group.
People went to great lengths, traveling almost 9000 kilometers over more than 60 days, to deliver an essential, 200-ton component of the KATRIN neutrino experiment.
Take one part unidentified goop. Add three parts mysterious energy. Throw in a dash of ordinary atoms. Mix. Compress. Explode. Let expand for 13.7 billion years.