In 1974, the independent discovery of the J/psi particle at SLAC and Brookhaven National Laboratory rocked the physics world, and entire textbooks had to be rewritten. Earlier this month, SLAC hosted a symposium to celebrate the milestone.

The observatory's practice camera has captured its first on-sky data.

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

This research advances our understanding of Earth's deep interior and exoplanets, opening new research avenues in Earth and planetary sciences.

The prototype DUNE 2x2 detector will capture up to 10,000 neutrino interactions per day.

Vera C. Rubin Observatory will unite coordinated observations of cosmic phenomena using the four messengers of the universe.

David Cesar, Julia Gonski and W.L. Kimmy Wu will each receive $2.75 million issued over five years for their research in X-ray and ultrafast science, new physics and primordial gravitational waves.

New results from the world’s most sensitive dark matter detector put the best-ever limits on particles called WIMPs, a leading candidate for what makes up our universe’s invisible mass.

His wide-ranging curiosity, original way of looking at problems and sheer joy in solving them drove many important contributions to particle physics. 

An X-ray imaging technique revealed that copper nanofoams used in inertial fusion experiments aren't as uniform as expected.

The 3.5-meter  glass mirror is the first permanent component of the Simonyi Survey Telescope's  state-of-the-art, wide-field optical system to be installed and will soon contribute to a better understanding of our Universe.

Vera C. Rubin Observatory will capture the faint light of distant brown dwarfs to help scientists understand the Milky Way’s formation and evolution.