To explore the birth of the universe, star and galaxy formation and the structure of space and time, SLAC researchers help develop cutting-edge technologies for a range of sensitive experiments.
A visualization of the speed of hydrogen gas in a rotating galaxy from the early universe.
(Simulation by Ji-hoon Kim and Tom Abel, image by Ralf Kaehler/KIPAC)
The accomplished particle physicist will prepare the lab for its role in DUNE, a next-generation experiment designed to demystify neutrinos and their fundamental role...
Nearly 200 guests attended a symposium on fundamental physics to celebrate the former deputy director’s numerous scientific contributions, which continue to have a tremendous...
The accomplished particle physicist will prepare the lab for its role in DUNE, a next-generation experiment designed to demystify neutrinos and their fundamental role in the universe.
Nearly 200 guests attended a symposium on fundamental physics to celebrate the former deputy director’s numerous scientific contributions, which continue to have a tremendous impact on our understanding of the subatomic world.
System tests at SLAC continue with 32 light sensors - up from a single one - in a small-scale version of the future experiment, which will use nearly 500 of them.