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Stanford Synchrotron Radiation Lightsource (SSRL) RSS feed

SSRL is a pioneering synchrotron radiation facility known for outstanding science, technological innovation and user support. It provides extremely bright X-rays that scientists use for a wide range of research that probes matter on the scales of atoms and molecules.

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Aerial view of Stanford Synchrotron Radiation Lightsource (SSRL)

News Feature

Scientists precisely control where single-atom catalysts sit on their support structures, and show how changing their position affects their reactivity.

News Feature

In SLAC’s accelerator control room, shift lead Ben Ripman and a team of operators fine-tune X-ray beams for science experiments around the clock.

Ben Ripman in SLAC's accelerator control room.
News Feature

Researchers will use SLAC’s X-ray light source to probe 150-million-year-old dinosaur fossils at the atomic level.

Jurassic Mile
News Feature

Combination of research methods reveals causes of capacity fading, giving scientists better insight to design advanced batteries for electric vehicles

Cathode degradation
News Feature

New research offers the first complete picture of why a promising approach of stuffing more lithium into battery cathodes leads to their failure. A...

high capacity batteries
News Feature

Detailed observations of iridium atoms at work could help make catalysts that drive chemical reactions smaller, cheaper and more efficient.

Depiction of four techniques used to study a single-atom catalyst
News Feature

Researchers mapped trace elements within Pleistocene fossils to learn about the life of a long-extinct subspecies of spotted hyena.

Spotted hyena
Press Release

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...

Atomic movie
News Feature

A new study is a step forward in understanding why perovskite materials work so well in energy devices and potentially leads the way toward...

Scattered neutrons off perovskite material.
News Feature

Revealed for the first time by a new X-ray laser technique, their surprisingly unruly response has profound implications for designing and controlling materials.

Illustration of laser light setting off vibrations in material
News Feature

Two studies led by SLAC and Stanford capture electron 'sound waves' and identify a positive feedback loop that may boost superconducting temperatures.

Illustration of study that reveals how coordinated motions of atoms boost superconductivity
News Feature

The annual conference for scientists who conduct research at SLAC’s light sources engaged about 470 researchers in talks, workshops and discussions.

2018 Users Conference