Measurements of particle “flow” and hot matter created in low-energy collisions provide key data in understanding nuclear phase transition.
A team studied some of the smallest particles in the Universe on the nation’s fastest computer, Summit at Oak Ridge National Laboratory.
Scientists engineer materials’ electrical and optical properties with plasmon engineering
A unique coating camouflages the temperature of an underlying material
Nanotubes with designed defects allow better performance for next-generation optical telecommunications.
A team of Molecular Foundry researchers directly visualized and measured excitons hopping across very long distances.
Measurements of nuclear charge radii and state-of-the-art nuclear models challenge the magic of neutron number 32 in potassium isotopes.
If physicists can find it, color transparency in protons could offer new insight into the particles that build our universe.
Research on techniques for studying the chemical properties of superheavy elements might also help recover a strategically important metal.
Lipids transfer energy and serve as an inter-kingdom communication tool in leaf-cutter ants’ fungal gardens.
A material with a disordered rock salt structure could help make batteries safer, faster-charging, and able to store more energy
DIII-D researchers create barriers to separate core heat from the cooler edge of a tokamak
