Solving a Beta Decay Puzzle
Researchers use advanced nuclear models to explain 50-year mystery surrounding the process stars use to transform elements.
Researchers use advanced nuclear models to explain 50-year mystery surrounding the process stars use to transform elements.
Titan supercomputer tells origin story of nanoparticle size distributions with large-scale simulations.
The Fusion Recurrent Neural Network reliably forecasts disruptive and destructive events in tokamaks.
Antiquark spin contribution to proton spin depends on flavor, which could help unlock secrets about the nuclear structure of atoms that make up nearly all visible matter in our universe.
With user facilities, researchers devise novel battery chemistries to help make fluoride batteries a reality.
Global data set shows monthly water use by irrigation, manufacturing, and other uses, helping researchers to analyze water use by region and season.
Predictions of the direct impacts of greenhouse gases must account for local temperature and humidity conditions.
Researchers find gusty winds increase surface evaporation that drives summer rainstorms in the Tropical West Pacific.
Surprisingly, a magnetic island does not necessarily perturb the plasma current in a dangerous way and destroy fusion performance.
Researchers modeled design concepts for innovative, opposed-piston engine on Titan supercomputer.
Read more about Supercomputing Low-Emission EngineThe two most abundant elements in the universe, hydrogen and helium, were previously thought to be impossible to measure by X-ray photoelectron spectroscopy.
Read more about X-ray Spectroscopy of Hydrogen and HeliumScientists catch details with atomic resolution, potentially helping design systems to use sunlight and water to produce fuels.
Read more about Atomic Snapshots of PhotosynthesisSignup for the Office of Science’s GovDelivery email service, and check the box for the Advanced Scientific Computing Research Program in your subscriber preferences.
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