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.

Most new materials are discovered near the proverbial shore. Now, scientists deploy artificial intelligence and high-throughput experimental techniques to search previously uncharted waters to find revolutionary new materials.

A better understanding of how this happens could help researchers hone future electronic measurements and offer insights into how X-rays interact with matter on ultrafast time scales.

The initiative will give scientists more access to powerful lasers at universities and labs.

At the Machine Shop, Pete Franco crafts beautiful, intricate and precise parts for the lab’s latest scientific tools.

The early-career award honors a promising leader in X-ray free-electron laser research.

The annual conference for scientists who conduct research at SLAC’s light sources engaged more than 1,700 researchers in talks, workshops and discussions.

FACET-II will pave the way for a future generation of particle colliders and powerful light sources, opening avenues in high-energy physics, medicine, and materials, biological and energy science.

No human cell can function without these tiny machines, which cause disease when they go haywire and offer potential targets for therapeutic drugs.

Cryan is an investigator with the Stanford PULSE Institute at SLAC, while Marsden is an associate professor of pediatrics and of bioengineering at Stanford.