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Results offer insight into properties of quark-gluon plasma, the hot mix of fundamental nuclear-matter building blocks that filled the early universe.
The team reached a resolution better than 20 nanometers, detecting optical properties of plant cell materials down to the width of a microfibril.
The Daya Bay Neutrino Experiment has produced the most precise measurement yet of theta13, a key for understanding how neutrinos change their "flavor"
Meet the engineer who oversees implementation of the thousands of electronic components that will bring the upgraded APS to life.
U.S. scientists and collaborators have a powerful new instrument at their disposal—the world’s first exascale supercomputer.
Argonne National Laboratory is bringing science and industry together to advance the research and development of sustainable aviation fuels.
The Small Business Innovation Research Program brings government and private industry together to develop next-generation X-ray optics for LCLS-II.
Extreme ultraviolet lithography is a revolutionary technique that deploys short wavelengths of just 13.5 nanometers to print microchip circuits.
By showing that design features of a PPPL reactor solve complex heat-exhaust problems, researchers reduced the barriers to the use of nuclear fusion.
Oak Ridge National Laboratory scientists have a hand in 10 of the first 34 experiments at the FRIB, a new DOE Office of Science user facility.