SLAC and Stanford scientists discovered that a single layer of tiny diamonds increases an electron gun’s emission 13,000 fold. Potential applications include electron microscopes and semiconductor manufacturing.
Researchers at SLAC have found a simple new way to study very delicate biological samples – like proteins at work in photosynthesis and components of protein-making machines called ribosomes – at the atomic scale using SLAC's X-ray laser.
The Precourt Institute for Energy and the TomKat Center for Sustainable Energy at Stanford have awarded 12 faculty seed grants totaling $2.1 million for groundbreaking research on clean energy, including three grants to SLAC-Stanford collaborations.
A team led by SLAC scientists combined powerful magnetic pulses with some of the brightest X-rays on the planet to discover a surprising 3-D effect that appears linked to a mysterious phenomenon known as high-temperature superconductivity.
Using a new technology for ultrafast science, researchers have for the first time observed extremely rapid atomic motions in a three-atom-thick layer of a promising material that could be used in next-generation solar cells, electronics and catalysts.