The research could lead to a better understanding of how metals behave under extreme conditions, which will aid in the development of more resilient materials.
Double your pressure, double your fun! Join us for SLAC on Tap on May 9, when SLAC scientist and rock star Arianna Gleason will share the amazing secrets scientists are trying to squeeze from the depths of Earth and other...
Our original 2-mile-long particle accelerator, built half a century ago for groundbreaking particle physics research, has been repurposed as the world’s first hard X-ray free-electron laser and a testbed for next-generation accelerator technologies.
Researchers developed new methods that produce intense attosecond pulses and pulse pairs to gain insights into the fastest motions inside atoms and molecules. It could lead to advancements in fields ranging from chemistry to materials science.
Supported by SLAC's catalysis group Co-ACCESS, researchers discover new ways to boost the performance of catalysts that turn carbon dioxide into methanol.
Researchers figured out how to spray and freeze a cell sample in its natural state in milliseconds, helping them capture basic biological processes in unprecedented detail.