SLAC researchers are developing the next generation of linear colliders, including superconducting colliders. Their research could also improve compact light sources and accelerators used in the medical field.
A new report outlines suggestions for federal investments needed for the next generation of transformative discoveries in particle physics and cosmology, including priority projects...
The future of experimental particle physics is exciting – and energy intensive. SLAC physicists are thinking about how to make one proposal, the Cool...
Edelen draws on machine learning to fine tune particle accelerators, while Kurinsky develops dark matter detectors informed by quantum information science.
The goal: develop plasma technologies that could shrink future accelerators up to 1,000 times, potentially paving the way for next-generation particle colliders and powerful...
SLAC accelerator physicists have been instrumental in creating a vital part of a future Higgs boson-producing linear accelerator, from developing the initial design nearly...
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.
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.
Edelen draws on machine learning to fine tune particle accelerators, while Kurinsky develops dark matter detectors informed by quantum information science.
The goal: develop plasma technologies that could shrink future accelerators up to 1,000 times, potentially paving the way for next-generation particle colliders and powerful light sources.
A new system at SLAC National Accelerator Laboratory's X-ray laser narrows a rainbow spectrum of X-ray colors to a more intense band of light, creating a much more powerful way to view fine details in samples at the scale of...
SLAC accelerator physicists have been instrumental in creating a vital part of a future Higgs boson-producing linear accelerator, from developing the initial design nearly 15 years ago to its successful demonstration in 2013.