SLAC researchers have found a new way to transform graphite into diamond. The approach may have implications for industrial applications ranging from cutting tools to electronic devices.
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.
A material that could enable faster memory chips and more efficient batteries can switch between high and low ionic conductivity states much faster than previously thought, SLAC and Stanford researchers have determined. The key is to use extremely small chunks...
A 200-terawatt laser at SLAC will synchronize with X-ray laser pulses to precisely measure more extreme temperatures and pressures in exotic forms of matter.
With two SLAC researchers in the lead, an analysis of the enigmatic Fermi bubbles has narrowed down the number of possibilities for their origin, but hasn't completely solved the puzzle.
SLAC recently hosted a forward-looking group of theoretical and experimental particle physicists. Their purpose: Follow the science to determine what a post-LHC collider could teach us about the universe.
Experiments have helped explain some of the imbalance between matter and antimatter in the universe, but not all of it. Now a SLAC theorist and his colleagues have laid out a possible method for determining if the Higgs boson is...
Physicists have good reason to believe 85 percent of the matter in the universe is currently undetectable. But not being able to see it didn’t keep students at the 42nd SLAC Summer Institute from learning about it.
Scientists from the Kavli Institute for Particle Astrophysics and Cosmology are helping build cameras for the Cherenkov Telescope Array, an advanced, ground-based gamma-ray observatory.