Sebek’s extraordinary career at SSRL includes helping build the facility’s original electron injector back in the 1980s and working on almost all of its electrical systems since.

Analyzing X-ray movies with computer vision reveals how nanoparticles in a lithium-ion battery electrode work.

James’ research on chronic and acute mercury exposure challenges conventional views

They aim to help society respond ten times faster with treatments for future disease outbreaks.

SLAC scientists showed that a carbon-metal compound with a perfectly placed nickel atom plays a key role in converting carbon dioxide into components for food and energy. 

Garcia-Esparza’s research offers unique insights into catalysts relevant to renewable energy generation and emerging materials for microelectronics.

X-ray laser studies help researchers identify early steps in the freezing process to better understand how clouds make ice and their effect on climate.

They used synthetic diamond crystals as mirrors to make X-ray pulses run laps inside a vacuum chamber, demonstrating a key process needed for future generations of performance-enhanced X-ray lasers.     

Leora Dresselhaus-Marais, Claudio Emma,  Bernhard Mistlberger and Johanna Nelson Weker will pursue cutting-edge research into decarbonizing steel production, theoretical physics, generating more intense particle beams, and improving X-ray microscopes.

Bringing ultrafast physics to structural biology has revealed the coordinated dance of molecules in unprecedented clarity, which could aid in the design of new light-responsive materials.

The facility is now one step away from releasing an unprecedented stream of ultra-bright X-rays.

The long – but not too long – cavity would ping-pong X-ray pulses inside of a particle accelerator facility to help capture nature’s fastest movements.