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The Office of Science national scientific user facilities provide researchers with the most advanced tools of modern science, including accelerators, colliders, supercomputers, light sources and neutron sources, as well as facilities for studying the nano world, the environment, and the atmosphere.
A measurement tracking ‘direct’ photons from polarized proton collisions points to positive gluon polarization.
A newly discovered excited state in radioactive sodium-32 has an unusually long lifetime, and its shape dynamics could be the cause.
Machine learning and artificial intelligence accelerate nanomaterials investigations.
A new microscopy technique measures atomic-level distortions, twist angles, and interlayer spacing in graphene.
New computational methods “fingerprint” polymer motions under flow.
A tungsten carbide catalyst can produce a hydrocarbon from carbon dioxide at high rates and high efficiency.
Scientists can now verify theoretical predictions using one-dimensional compositions grown in-situ at a synchrotron spectroscopy station.
New results will help physicists interpret experimental data from particle collisions and better understand the interactions of quarks and gluons.
Experiments examine atomic disorder and dynamics that could explain beneficial optical properties.
If observed, neutrinoless double-β decay would have changed our view of the Universe.