Accelerators
Antimatter Catches a Wave at SLAC
A SLAC-led research team working at the lab’s FACET facility has demonstrated a new way of accelerating positrons that could help develop smaller, more economical future particle colliders.
Unique SLAC Technology to Power X-ray Laser in South Korea
Scientists and engineers in South Korea will soon be using SLAC’s signature high-power radio-frequency amplifiers, called XL4 klystrons, to get the most out of their new X-ray laser.
President Obama Honors Claudio Pellegrini with Enrico Fermi Award
SLAC visiting scientist and consulting professor Claudio Pellegrini is honored for contributions to free-electron laser science.
Symmetry: Steady to a Fault
How do accelerators survive in some of the most earthquake-prone regions on Earth?
Compact Light Source Improves CT Scans
A commercial X-ray source with roots in SLAC research enables multi-mode computer tomography scans that outperform routine scans in hospitals. The technique could potentially find widespread use in medicine and other fields.
SLAC-led Research Team Bends Highly Energetic Electron Beam with Crystal
A new study shows that crystals could become a valuable tool to control and manipulate electron beams in next-generation X-ray light sources and particle colliders.
SLAC’s Peter Rowson Named American Physical Society Fellow
His election recognizes a long history of accomplishment that began more than two decades ago at the SLAC Linear Collider.
SLAC, RadiaBeam Build New Tool to Tweak Rainbows of X-ray Laser Light
SLAC and RadiaBeam Systems have teamed up to construct a “dechirper” that will allow scientists to adjust the “color spectrum” of X-ray pulses in pioneering LCLS experiments.
Researchers Hit Milestone in Accelerating Particles with Plasma
Scientists have demonstrated that a promising technique for accelerating electrons on waves of hot plasma is efficient enough to power a new generation of shorter, more economical accelerators.
Symmetry: Accelerating the Fight Against Cancer
As charged-particle therapies grow in popularity, physicists are working with other experts to make them smaller, cheaper and more effective—and more available to cancer patients in the United States.