Learn about the 10-year Legacy Survey of Space and Time (LSST) and NSF-DOE Vera C. Rubin Observatory in this video.

The LSST Camera is being tested inside the clean room at SLAC

A cosmologist, cultural historian, and neurosurgeon discuss how outer space and otherworldly phenomena can inspire discovery across disciplines and bring people together.

They’ll work on experiments that search for dark matter particles and exotic neutrino decays that could help explain why there’s more matter than antimatter in the universe.

SLAC researchers contributed to the design, construction, testing and analysis of the experiment, which has already put the tightest bounds yet on a popular theory of dark matter.

Toro and Schuster are being recognized for their contributions to the design of experiments that use particle accelerators to search for dark matter particles.

Edelen draws on machine learning to fine tune particle accelerators, while Kurinsky develops dark matter detectors informed by quantum information science.

The Rubin Observatory's LSST Camera will take enormously detailed images of the night sky from atop a mountain in Chile. Down below the mountain, high-speed computers will send the data out into the world. What happens in between?

DESI has already mapped out more galaxies than all previous 3D surveys combined, and it's just getting started.