Researchers find that different conformers of a type of atmospheric molecular intermediates react differently with the pollutant dimethyl amine.
Researchers find that different conformers of a type of atmospheric molecular intermediates react differently with the pollutant dimethyl amine.
Machine learning techniques track turbulent blobs in millions of frames of video from tokamak experiments.
By confining the transport of electrons and ions in a patterned thin film, scientists alter the material's properties for next-generation electronics.
Researchers combined crystallographic data and computational studies to investigate plutonium-ligand bonding within a hybrid material construct.
The MINERvA experiment in the NuMI beam at Fermilab has made the first accurate image of the proton using neutrinos instead of light as the probe.
Plasma simulations, theory, and comparison with experiment show that resistive wall tearing mode can cause energy loss in tokamaks.
Plasma simulations, theory, and comparison with experiment show that resistive wall tearing mode can cause energy loss in tokamaks.
A UT Austin-led team links supercomputer simulations and material fabrication to advance light-related devices.
Understanding how methanogenic bacteria can “bio-mine” minerals advances biotechnology and helps scientists understand the Earth’s geological history.
Interfaces made by stacking certain complex oxide materials can tune the quantum interactions between electrons, yielding exotic spin textures.