Accelerators form the backbone of SLAC’s national user facilities. They generate some of the highest quality particle beams in the world, helping thousands of scientists perform groundbreaking experiments each year.
Linac towards SLAC campus.
(Olivier Bonin/SLAC National Accelerator Laboratory)
SLAC experimentalists and theorists collaborate to develop critical detector components, data analysis tools, and theoretical models for the HL-LHC upgrade, which will investigate the...
A new experiment suggests that this exotic precipitation forms at even lower pressures and temperatures than previously thought and could influence the unusual magnetic...
A new report outlines suggestions for federal investments needed for the next generation of transformative discoveries in particle physics and cosmology, including priority projects...
What could smaller particle accelerators look like in the future? SLAC scientists are working on innovations that could give more researchers access to accelerator...
Teams at SLAC installed new experimental hutches with cutting-edge instruments that will harness the upgraded facility’s new capabilities and expand the breadth of research...
The future of experimental particle physics is exciting – and energy intensive. SLAC physicists are thinking about how to make one proposal, the Cool...
Scientists developed a new method to unlock the secrets of RNA. The implications are wide-reaching, from better understanding diseases to designing new therapeutics.
SLAC experimentalists and theorists collaborate to develop critical detector components, data analysis tools, and theoretical models for the HL-LHC upgrade, which will investigate the Higgs boson and pursue physics beyond the Standard Model.
A new experiment suggests that this exotic precipitation forms at even lower pressures and temperatures than previously thought and could influence the unusual magnetic fields of Neptune and Uranus.
A new report outlines suggestions for federal investments needed for the next generation of transformative discoveries in particle physics and cosmology, including priority projects at SLAC.
What could smaller particle accelerators look like in the future? SLAC scientists are working on innovations that could give more researchers access to accelerator science.
Teams at SLAC installed new experimental hutches with cutting-edge instruments that will harness the upgraded facility’s new capabilities and expand the breadth of research done at the facility.
The future of experimental particle physics is exciting – and energy intensive. SLAC physicists are thinking about how to make one proposal, the Cool Copper Collider, more sustainable.
Scientists developed a new method to unlock the secrets of RNA. The implications are wide-reaching, from better understanding diseases to designing new therapeutics.