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National laboratory researchers partner with a private company to achieve 100-million-degree temperatures inside a high magnetic field spherical tokamak.
Theorists find new electromagnetic effects that shift the spin-dependent coupling of the nucleon to the weak force and point out the implications for new physics in beta decay.
Scientists test nuclear theory models in mid-sized nuclei using high resolution Indium-115 decay data.
New calculations provide insights into the dynamics of the chiral magnetic effect in heavy ion collisions.
Modeling nuclear matter in two dimensions greatly simplifies understanding interactions among “cold,” dense quarks—including in neutron stars.
The SNO+ experiment has for the first time shown that neutrinos from a nuclear reactor over 240 km away can be detected with plain water.
Researchers find that different conformers of a type of atmospheric molecular intermediates react differently with the pollutant dimethyl amine.
Spin orientation preference may point to a previously unknown influence of the strong nuclear force—and a way to measure its local fluctuations.
Snekmer allows scientists to use rapid prototyping to better understand the function of proteins in microbes.
This new method individually separates heavy metals — an actinide chemist’s dream.
Physicists use a detector under an Italian mountain to search for rare nuclear processes to explain why our Universe has more matter than antimatter.
Researchers demonstrate a real-world large-scale application of deep neural network models for discovering novel protein-protein interactions.
