Join us for a full day of talks and panel discussions looking at the past, present and future of the Stanford Synchrotron Radiation Lightsource (SSRL).
In photosystem II, the water-splitting center cycles through four stable states, S0-S3. On a baseball field, S0 would be the start of the game when a batter on home base is ready to hit.
SLAC’s newly upgraded Linac Coherent Light Source (LCLS) X-ray free-electron laser (XFEL) successfully produced its first X-rays, creating unparalleled capabilities that will usher in a new era in research.
G6PD deficiency affects about 400M people worldwide and can pose serious health risks. Uncovering the causes of the most severe cases could finally lead to treatments.
Lead Scientist, Stanford Synchrotron Radiation Lightsource (SSRL)
Areas of research: X-ray and ultrafast science; energy sciences; X-ray microscopy and X-ray characterization of materials far from equilibrium; energy storage; battery research; 3D metal printing
This movie shows the transition of a gold sample from a solid (dotted pattern) to a liquid (ring pattern) after being heated by a laser pulse. It was taken with SLAC’s ultrafast “electron” camera, an instrument for ultrafast electron diffraction...
Scientists developed a new method to unlock the secrets of RNA. The implications are wide-reaching, from better understanding diseases to designing new therapeutics.
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.