Scientists have inched a step closer to solving an enduring mystery in physics — why the universe contains any matter at all — thanks to a newly combined analysis from two of the world's leading ...

But only in the last 70 years have we known for certain they were there. In 1956, physicists Clyde Cowan and Frederick Reines ...

Scientists at Fermilab’s MicroBooNE experiment have ruled out the existence of the elusive sterile neutrino, a particle ...

Deep under the Black Hills, the United States is turning a historic gold mine into what is effectively a colossal ...

Do you know which are the most abundant particles in the universe? It is neutrinos — small, chargeless, and nearly massless subatomic particles that either don’t interact with matter at all or ...

The particle in question, known as a sterile neutrino, was supposed to only interact with gravity and have zero interactions with matter.

The joint NOvA-T2K analysis achieved unprecedented precision in measuring neutrino mass, a key step toward understanding water origin.

Holtkamp will oversee the completion of the $1.5bn Long-Baseline Neutrino Facility-Deep Underground Neutrino Experiment ...

The OPERA neutrino detector in Italy, which received neutrino beam from CERN laboratory in the Alps. Alberto Pizzoli/AFP/Getty Images In fairness, even the scientists who performed the experiment had ...

For three decades, a riddle has followed neutrinos, the near-weightless particles that stream through Earth by the trillions each second. They change identities as they fly, shifting among three known ...

The international MicroBooNE experiment uses a 170-ton detector placed in Fermilab’s neutrino beam. The experiment studies neutrino interactions and has found no hint of a theorized fourth neutrino ...

"Precision in these measurements is critical, as even subtle discrepancies could signal deviations from the model — potentially revealing new physics." When you purchase through links on our site, we ...