For mechanical engineer Sarah Edwards, SSRL is the ultimate classic car.

X-rays reveal an extinct mouse was dressed in brown to reddish fur on its back and sides and had a tiny white tummy.

Researchers produced an underwater sound with an intensity that eclipses that of a rocket launch while investigating what happens when they blast tiny jets of water with X-ray laser pulses.

Monika Schleier-Smith and Kent Irwin explain how their projects in quantum information science could help us better understand black holes and dark matter.

A laser technique lets researchers see how potentially dangerous growths form in batteries.

Both are professors at Stanford and SLAC, where Martinez is an investigator with the Stanford PULSE Institute.

A better understanding of how these receptors work could enable scientists to design better therapeutics for sleep disorders, cancer and Type 2 diabetes.

Scientists precisely control where single-atom catalysts sit on their support structures, and show how changing their position affects their reactivity.

A new method could be used to look at chemical reactions that other techniques can’t catch, for instance in catalysis, photovoltaics, peptide and combustion research.

In SLAC’s accelerator control room, shift lead Ben Ripman and a team of operators fine-tune X-ray beams for science experiments around the clock.

In the decade since LCLS produced its first light, it has pushed boundaries in countless areas of discovery.

He helped lay the groundwork for SLAC’s LCLS X-ray laser and for the institute, which was founded to explore the science LCLS would enable.