SLAC’s astrophysicists and cosmologists pursue top-priority research on topics including dark matter and dark energy, the formation of galaxies and cosmic evolution.
Dwarf Galaxy 3.
(Visualization by Ralf Kaehler and Tom Abel. Simulation by John Wise, Tom Abel/The Kavli Foundation/SLAC National Accelerator Laboratory/Stanford University)
Studying a material that even more closely resembles the composition of ice giants, researchers found that oxygen boosts the formation of diamond rain.
An extension of the Stanford Research Computing Facility will host several data centers to handle the unprecedented data streams that will be produced by...
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...
Managing the unprecedented amount of data that will soon stream from Rubin Observatory means more than buying tons of hard drives. SLAC scientist Richard...
Studying a material that even more closely resembles the composition of ice giants, researchers found that oxygen boosts the formation of diamond rain.
An extension of the Stanford Research Computing Facility will host several data centers to handle the unprecedented data streams that will be produced by a new generation of scientific projects.
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.
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?
Managing the unprecedented amount of data that will soon stream from Rubin Observatory means more than buying tons of hard drives. SLAC scientist Richard Dubois explains what will go into Rubin’s U.S. data facility.