Experiments confirm the NUCLEI collaboration’s predictions of the existence of the tetraneutron.
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.
Quantum technique accelerates identification of entangled materials.
Cloud microphysics affect precipitation extremes on multiple time scales in climate models.
A new UV-visible protein allows researchers to see gene expression in plants without special equipment.
Researchers used deep learning methods to estimate the subsurface permeability of a watershed from readily available stream discharge measurements.
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.
The results may offer insight into the quark-gluon plasma—the hot mix of fundamental nuclear-matter building blocks that filled the early universe.
Studies of the nanostructure of a chiral magnet provides insights on controlling magnetic properties for applications in computers and other electronics.
New optics-on-a-chip device paves the way to helping characterize fast chemical, material, and biological processes.
