Linac Coherent Light Source (LCLS)

It can help operators optimize the performance of X-ray lasers, electron microscopes, medical accelerators and other devices that depend on high-quality beams.

This new understanding could aid the development of more efficient clean energy sources.

A better understanding of the failure process will help researchers design new materials that can better withstand intense events such as high-velocity impacts.

When upgrades to the X-ray laser at the Department of Energy’s SLAC National Accelerator Laboratory are complete, the powerful new machine will capture up to 1 terabyte of data per second; that’s a data rate equivalent to streaming about one...

Scientists get dramatically better resolution at X-ray free-electron lasers with a new technique.

Knowledge of physics and a love of challenges fuel May Ling Ng’s quest for nanometer perfection in the smooth surfaces of mirrors used at SLAC’s X-ray laser.

These fleeting disruptions, seen for the first time in lead hybrid perovskites, may help explain why these materials are exceptionally good at turning sunlight into electrical current in solar cells.

The results, which show that ultrafast atomic motions are the first step in forming a magnetic state, could lead to faster and more efficient data storage devices.

The lab’s X-ray laser recently joined other facilities in making remote science possible from any corner of the world, a trend that will likely continue into the future.

The results of a new scientific study reveal how photosynthetic reaction centers adapt to make light-driven reactions more efficient.