David Cesar, Julia Gonski and W.L. Kimmy Wu will each receive $2.75 million issued over five years for their research in X-ray and ultrafast science, new physics and primordial gravitational waves.

The Center for Energy Efficient Magnonics (CEEMag) brings together a multidisciplinary group of researchers from SLAC and seven universities

The results, which show how the protein adds nucleotides to the growing RNA chain, could lead to more effective medications.

Their method provides a new tool to study electron-electron interactions, which are fundamental to many technologies, including semiconductors and solar cells.

An X-ray imaging technique revealed that copper nanofoams used in inertial fusion experiments aren't as uniform as expected.

The method could lead to the development of new materials with tailored properties, with potential applications in fields such as climate change, quantum computing and drug design.

A study reveals an ultrathin material’s ability to circularly polarize light, potentially informing how they work in optoelectronic devices.

Improvements to the lab’s “electron camera” use AI and “time stamping” to help reveal nature’s speedy processes more accurately. 

The Ultrafast X-ray Summer School, run by the Stanford PULSE Institute and hosted at SLAC, opens the door for students and postdocs to imagine how they could use X-ray free electron lasers in their future careers.

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.