This summer, five graduate students from the University of Puerto Rico had the opportunity to use SLAC’s world-class facilities to keep their studies on...
As members of the lab’s Computer Science Division, they develop the tools needed to handle ginormous data volumes produced by the next generation of...
With SLAC’s X-ray laser, a research team captured ultrafast changes in fluorescent proteins between “dark” and “light” states. The insights allowed the scientists to...
The Scripps researcher is honored for groundbreaking research at the Stanford Synchrotron Radiation Lightsource that accelerated the development of a vaccine for deadly Lassa...
A decade-long search ends at the Stanford Synchrotron Radiation Lightsource, where researchers from The Scripps Research Institute emerge with a clear picture of how...
X-ray studies have produced surprising insights into the workings of a hormone receptor associated with blood pressure regulation that could be a target for...
A research collaboration designed a new assembly-line system that rapidly replaces exposed samples and allows the team to study reactions in real-time.
In a major step forward, SLAC’s X-ray laser captures all four stable states of the process that produces the oxygen we breathe, as well as fleeting steps in between. The work opens doors to understanding the past and creating a...
This summer, five graduate students from the University of Puerto Rico had the opportunity to use SLAC’s world-class facilities to keep their studies on track.
As members of the lab’s Computer Science Division, they develop the tools needed to handle ginormous data volumes produced by the next generation of scientific discovery machines.
With SLAC’s X-ray laser, a research team captured ultrafast changes in fluorescent proteins between “dark” and “light” states. The insights allowed the scientists to design improved markers for biological imaging.
The Scripps researcher is honored for groundbreaking research at the Stanford Synchrotron Radiation Lightsource that accelerated the development of a vaccine for deadly Lassa fever.
A decade-long search ends at the Stanford Synchrotron Radiation Lightsource, where researchers from The Scripps Research Institute emerge with a clear picture of how the deadly Lassa virus enters human cells.
X-ray studies have produced surprising insights into the workings of a hormone receptor associated with blood pressure regulation that could be a target for new medicines related to cardiovascular conditions, neuropathic pain and tissue growth.
A research collaboration designed a new assembly-line system that rapidly replaces exposed samples and allows the team to study reactions in real-time.