Advanced Accelerator R&D
SLAC visiting scientist and consulting professor Claudio Pellegrini is honored for contributions to free-electron laser science.
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.
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 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.
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.
Three scientists at SLAC National Accelerator Laboratory have received international prizes for their achievements in free-electron laser science.
Last year, a monster magnet set out from Brookhaven National Lab on an epic trek by land and sea to Fermilab, where it will serve as the heart of a search for evidence of new subatomic particles. Last month, researchers came to SLAC to test the eyes and nerves of the same experiment: a cutting-edge design for a new detector.
Researchers at SLAC collaborate with small businesses to develop technology so it can benefit the world at large.
Following an absence of six years, beams of positrons – the antimatter twins of electrons – are once more streaming through SLAC's linear accelerator to waiting experiments.
SLAC scientists have found a new way to produce bright pulses of light from accelerated electrons that could shrink "light source" technology used around the world since the 1970s to examine details of atoms and chemical reactions