New Insights into How Strange Matter Interacts with Ordinary Matter
First measurements of how hypernuclei flow from particle collisions may give insight into the strange matter makeup and properties of neutron stars.
First measurements of how hypernuclei flow from particle collisions may give insight into the strange matter makeup and properties of neutron stars.
Modern nuclear theory predicts that nucleons appear less “squishy” when probed with neutrinos than was previously inferred from experimental data.
Researchers worked out how to efficiently prepare wave functions for the lithium-6 nuclear ground state and implemented those on quantum hardware.
Three-dimensional superconducting electrons choose to cross over to a flatter alternate dimension.
If observed, neutrinoless double-β decay would have changed our view of the Universe.
Scientists discover unexploited biosynthetic pathways and redesign them to produce useful bioproducts in a wide range of microbes.
A global warming-induced poleward shift of the westerly jet affects the climate and water cycle in the U.S. Midwest differently in the spring and summer.
Scientists examine the vast scientific literature on the urban impact on weather and climate to synthesize current understanding and inform future work.
Scientists find interactions between organic matter in river corridors and microbial communities, highlighting potentially important microbes and chemicals
A soil transplant experiment gives new insights into coastal forests’ resilience in the face of rising seas and increasing storms.
Land use and land cover changes have diverse and contrasting effects on different types of rain.
New Detection Methods Find More Drizzle in Marine Stratocumulus Clouds