To Better Predict Extreme Precipitation, Scientists Model Cloud Microphysics
Cloud microphysics affect precipitation extremes on multiple time scales in climate models.
Cloud microphysics affect precipitation extremes on multiple time scales in climate models.
Combining synthesis, characterization, and theory confirmed the exotic properties and structure of a new intrinsic ferromagnetic topological material.
Neutrons reveal remarkable atomic behavior in thermoelectric materials for more efficient conversion of heat into electricity.
An international group of nuclear scientists has restricted the neutrino mass with a new level of sensitivity.
Studies of a common catalyst suggest strategies for improving the conversion of a natural gas component to useful chemicals.
Scientists demonstrate the value of a new global atmosphere model for the Energy Exascale Earth System Model.
Physicists use the Summit supercomputer to better understand a family of superconductors.
Study finds atomic-scale ordering of elements in a metallic alloy that is responsible for alloy’s increased strength.
Nuclear theorists demonstrate a new method for computing the strengths of subatomic interactions that include up to three particles.
Interactions of quantum “quasiparticles” demonstrate unusual fluid flow.
A team studied some of the smallest particles in the Universe on the nation’s fastest computer, Summit at Oak Ridge National Laboratory.
A material with a disordered rock salt structure could help make batteries safer, faster-charging, and able to store more energy