A new device at the Department of Energy’s SLAC National Accelerator Laboratory allows researchers to explore the properties and dynamics of molecules with circularly polarized, or spiraling, light.

Manipulating electron beams of X-ray lasers with regular laser light could potentially open up new scientific avenues.

High-speed X-ray camera reveals ultrafast atomic motions at the root of organisms’ ability to turn light into biological function.

The lab’s signature particle highway prepares to enter another era of transformative science as the home of the LCLS-II X-ray laser.

The Macromolecular Structure Knowledge Center can help researchers who lack equipment for testing hundreds of different crystallization conditions or expertise in working with challenging molecules.

Scientists have used X-rays to observe exactly how silver electrical contacts form during manufacturing of solar modules.

Scientists have determined in atomic detail how a potential drug molecule fits into and blocks a channel in cell membranes that Ebola and related “filoviruses” need to infect victims’ cells.

Toward next-generation electronics, better medications and green energy solutions: "The First Five Years" point to a bright future of high-impact discovery at LCLS.

Contributions to LIGO have come from many Stanford teams, including SLAC, Applied Physics, Mechanical Engineering, Aeronautics and Astronautics and the School of Earth, Energy and Environmental Sciences.

This surprising finding has potentially broad implications, from X-ray imaging of single particles to fusion research.