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Wechsler is one of seven Stanford researchers to join the scholarly society, which works to promote science for public good.

Cryogenic electron microscopy showed for the first time that large RNA complexes can assemble without the help of proteins. 

In this Q&A, Arianna Gleason discusses the technologies needed to make commercialized fusion energy a reality and how SLAC is advancing this energy frontier. 

A look inside the data processing infrastructure built by the NSF–DOE Vera C. Rubin Observatory to handle the Universe’s greatest data challenge.

Rubin will observe more variable stars than ever before, enabling investigations into what drives their variation and mapping the outer limits of our galaxy.

Oxidizing chemicals break this cellular power plant into useless bits, leading to  Parkinson’s disease, ALS, heart disease, diabetes, cancer and more. A small molecule could block the process.

Using SLAC’s X-ray laser, the method revealed atomic motions in a simple catalyst, opening the door to study more complex molecules key to chemical processes in industry and nature.

The team watched how a strained strontium titanate membrane crossed into ferroelectric – and quantum – territory. 

Leading researchers met at SLAC on Pellegrini’s 90th birthday to honor his ongoing scientific legacy and to explore the future of X-ray free-electron laser science.

Researchers aim to refine control room tools, improve training, and pave the way for smarter cooperation between humans and machines by studying how operators think and act under pressure.

The upgrades to SSRL’s resonant soft X-ray scattering beam line could reveal the hidden physics in high-temperature superconductors.

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.