A swap of metals and a mutation ramp up the electric field strength at the active site of an enzyme, making it works an astonishing 50 times faster than its unmodified analog.
TID leverages its state-of-the-art scientific expertise in exploiting the electromagnetic spectrum and in advanced instrumentation to develop novel technologies.
Machine Learning (ML) algorithms are found across all scientific directorates at SLAC, with applications to a wide range of tasks including online data reduction, system controls, simulation, and analysis of big data.
Tiny microbes and molecular machines have an outsized impact on human health, and they play key roles in the vast global cycles that shape climate and make carbon and nitrogen available to all living things. SLAC biology advances our understanding...
Superconducting quantum bits, or qubits, are at the heart of many quantum computers, acting like supercharged versions of the traditional bits found in classical computers.
