SLAC hosted two faculty members from institutions historically underrepresented in the research community via the Visiting Faculty Program.

An enormous vat of pure liquid xenon will help scientists at SLAC and around the globe learn more about the universe.

The complete data from the EXO-200 experiment provide new information on neutrinoless double beta decay and set the stage for future experiments that will search for the hypothetical process.

A team of electrical designers develops specialized microchips for a broad range of scientific applications, including X-ray science and particle physics.

The event attracted 124 participants and explores the successes and challenges of the theory that describes subatomic particles and fundamental forces.

SLAC engineer Knut Skarpaas designs some of physics’ most challenging machines, finding inspiration in unexpected places.

The upgraded experiment aims to discover if neutrinos are their own antiparticles.

SLAC is ramping up its efforts to understand neutrinos – elusive fundamental particles whose properties may help researchers solve a number of cosmic mysteries.

Antimatter has fueled many a supernatural tale. It's also fascinating all by itself.

His election recognizes a long history of accomplishment that began more than two decades ago at the SLAC Linear Collider.

If it exists, a type of decay called neutrinoless double-beta decay will show that neutrinos are their own antiparticles and can help scientists determine their masses.