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Spiraling laser light reveals how topological insulators lose their ability to conduct electric current on their surfaces.
Waves of magnetic excitation sweep through this exciting new material whether it’s in superconducting mode or not – another possible clue to how unconventional superconductors carry electric current with no loss.
An extension of the Stanford Research Computing Facility will host several data centers to handle the unprecedented data streams that will be produced by a new generation of scientific projects.
Researchers discover they contain a phase of quantum matter, known as charge density waves, that’s common in other unconventional superconductors. In other ways, though, they’re surprisingly unique.
They’ll work on experiments that search for dark matter particles and exotic neutrino decays that co...
After almost two decades of synchrotron experiments, Caltech scientists have captured a clear pictur...
SLAC researchers contributed to the design, construction, testing and analysis of the experiment, wh...
Gustavo Cezar wears two colorful hats as an engineer with SLAC’s GISMo lab.
Toro and Schuster are being recognized for their contributions to the design of experiments that use...
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