The SLAC scientists will each receive $2.5 million for their research on fusion energy and advanced radiofrequency technology.

This early-career scientist has undertaken challenging projects with significant implications for lithium-ion batteries.

The technique can be used to study molecular phenomena and the forming and breaking of chemical bonds.

Combined with the lab’s LCLS X-ray laser, it’ll provide unprecedented atomic views of some of nature’s speediest processes.

A new twist on cryo-EM imaging reveals what’s going on inside MOFs, highly porous nanoparticles with big potential for storing fuel, separating gases and removing carbon dioxide from the atmosphere.

Physicist Tor Raubenheimer explores the world by climbing rocks and designing particle accelerators.

Experiments at SLAC’s X-ray laser reveal in atomic detail how two distinct liquid phases in these materials enable fast switching between glassy and crystalline states that represent 0s and 1s in memory devices.

What they learned could help manufacturers design more reliable and longer-lasting batteries for smartphones and cars.

Its electron beams will drive the generation of up to a million ultrabright X-ray flashes per second.

For mechanical engineer Sarah Edwards, SSRL is the ultimate classic car.

X-rays reveal an extinct mouse was dressed in brown to reddish fur on its back and sides and had a tiny white tummy.

Researchers produced an underwater sound with an intensity that eclipses that of a rocket launch while investigating what happens when they blast tiny jets of water with X-ray laser pulses.