Stanford Synchrotron Radiation Lightsource (SSRL)

The results are an important step in designing these solid-state devices for computer memories that would operate much faster, last longer and use less energy than today’s flash memory.

The lab’s signature particle highway prepares to enter another era of transformative science as the home of the LCLS-II X-ray laser.

The Macromolecular Structure Knowledge Center can help researchers who lack equipment for testing hundreds of different crystallization conditions or expertise in working with challenging molecules.

New insights into how bacteria interact with host cells could help fight off harmful microbes.

Scientists have used X-rays to observe exactly how silver electrical contacts form during manufacturing of solar modules.

Scientists have determined in atomic detail how a potential drug molecule fits into and blocks a channel in cell membranes that Ebola and related “filoviruses” need to infect victims’ cells.

Contributions to LIGO have come from many Stanford teams, including SLAC, Applied Physics, Mechanical Engineering, Aeronautics and Astronautics and the School of Earth, Energy and Environmental Sciences.

Menlo Park, Calif.

Ian Wilson explains how scientists have found a way to induce antibodies to fight a range of influenza viruses, which could some day eliminate the need for seasonal flu shots.

View photos of upgrades and new equipment at the Stanford Synchrotron Radiation Lightsource (SSRL) that will enable scientists to study photosynthesis, superconductors and other fields of research.

Scientists working at SLAC have for the first time directly observed a phenomenon that allows magnetic waves to travel a long distance with no resistance.