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Scientists measure the proton’s electric and magnetic polarizabilities using the High Intensity Gamma Ray Source (HIGS).
Electrode engineering produces unprecedented selectivity, and high rates of carbon dioxide reduction to multicarbon products.
The observation of a resonance in the beryllium-11 nucleus suggests that the proton emission from beryllium-11 is a two-step process rather than a dark matter decay channel.
Experiments confirm the NUCLEI collaboration’s predictions of the existence of the tetraneutron.
Scientists use engineered gene circuits in plants to control gene expression and root architecture.
Microbes in Arctic soils are equipped to respond rapidly to the diverse effects of ongoing permafrost thaw.
Theoretical study exploits precision of new heavy ion collision data to predict how gluons are distributed inside protons and neutrons
High-energy proton experiments optimize production of medical imaging isotopes while providing insight into how to protect astronauts from space radiation.
A weak proton emission following beta decay constrains the formation of elements in stellar nova explosions and determines their peak temperature.
Long predicted by theory with support from supercomputers, this combination of neutrons advances nuclear physics
Quantum technique accelerates identification of entangled materials.
Cloud microphysics affect precipitation extremes on multiple time scales in climate models.
