Super-thin layers of liquids are helping scientists better understand the boundaries between substances.
Physicists are researching exotic particles in the quark-gluon plasma to expand our understanding of the beginning of the universe.
Kevin Wilson studies liquid and nanoparticle interfaces to understand surface chemistry reactions and the cycling of molecules in the biosphere.
DOE’s Fermilab is leading the most advanced and comprehensive neutrino experiment in the world.
With help from supercomputers at the DOE Office of Science user facilities, physicists are learning about how and why stars explode.
A technique from DOE’s SLAC National Accelerator Laboratory accelerates and improves how scientists examine X-ray images.
Exascale computing power helps researchers understand bubble behavior that can handicap reactor technology designed to capture carbon dioxide emission
To better understand environmental systems, scientists supported by DOE’s Office of Science are studying plant roots and the surrounding soil.
Paul Romatschke and his team have made fundamental predictions about physics, such as the fact that matter in the early universe was a fluid.
Theoretical particle physicist Rouven Essig is pioneering new experiments and detection methods in the search for knowledge about dark matter.