The MiniBooNE experiment has detected far more electron neutrinos than predicted: a possible harbinger of a revolutionary new elementary particle called the sterile neutrino.
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.
Science fair season is here, so we at symmetry were not surprised when 12-year-old Austin Ellsworth of Spring, Texas, called with a few questions about his science fair project.
In 1985, ten years before scientists at Fermilab discovered the top quark, Scott Willenbrock was a graduate student at the University of Texas at Austin.
How do you renovate a delicate, irreplaceable detector? Very carefully. During the last four months of 2006, the BaBar collaboration at SLAC successfully replaced a prematurely aging muon identification system.
The sun is shining; the Earth is warm instead of icy. Life is good, thanks to the weak force. One of the four known forces that shape the universe, the weak force sustains our lives, driving the nuclear reactions that power the sun and heat the Earth’s core. It’s also tremendously useful.
Guest houses are common among particle physics labs, and the Stanford Linear Accelerator Center is no exception. But in many ways, the Stanford Guest House, situated on the grounds of SLAC, is different.
I have been attending hundreds of talks by particle physicists who look for a very specific experimental signature that is predicted by a very specific theory extending the Standard Model.