Scientists have assembled an exotic toolbox for experiments that tap into the brightest X-rays on the planet.

A new experimental station in development at SLAC will expand capabilities for atomic-scale explorations in human health, biology, energy and environmental science.

Discovery at SLAC's Synchrotron Could Lead to New Drug Designs, Treatments

William Weis, PhD, chairman and professor of photon science at the Department of Energy's SLAC National Accelerator Laboratory, has been appointed chairman of the Department of Structural Biology in the Stanford School of Medicine.

Experiment at SLAC's X-ray Laser Opens Door to Exploring Cell Interiors

By finding surprising similarities in the way immune system defenders bind to disease-causing invaders, a new study may help scientists develop new treatments.

Researchers have discovered that an Ebola virus protein can transform into three distinct structures with different functions. This rather uncommon property provides new clues for the development of potential drugs for deadly hemorrhagic fever.

Given a year to mature, the Institute for Chemical Biology is relaunching under a new name that better reflects its vision of bringing Stanford's unique interdisciplinary culture to bear at a new frontier of chemistry.

Five years ago, the brightest source of X-rays on the planet lit up at SLAC. The Linac Coherent Light Source (LCLS) X-ray laser's scientific and technical progress since its momentous "first light" have been no less luminous, say those who...

A new tool for analyzing mountains of data from SLAC’s Linac Coherent Lightsource (LCLS) X-ray laser can produce high-quality images of important proteins using fewer samples. Scientists hope to use it to reveal the structures and functions of proteins that...

New Technology Allows Faster, More Accurate Imaging of Hard-to-study Membrane Proteins

A study shows for the first time that X-ray lasers can be used to generate a complete 3-D model of a protein without any prior knowledge of its structure.