New Theoretical Contribution Helps Examine the Internal Rotation of the Proton
Researchers find a new contribution to the proton Sivers function that describes the internal rotation of the proton perpendicular to its velocity.
Researchers find a new contribution to the proton Sivers function that describes the internal rotation of the proton perpendicular to its velocity.
The discovery of new isotopes demonstrates the user facility’s discovery potential.
The observation of a rare potassium-40 decay aids in estimating neutrinoless double-beta decay half-life and dating geological features.
Theorists propose nucleon energy-energy correlator as a probe to the gluon saturation phenomena at the future electron-ion collider.
Quantum entanglement changes in atomic nuclei in ways that differ from other systems.
Scientists develop a new method to characterize the properties of one of the four fundamental forces of nature.
Assessing the genomes of soil bacteria around the globe, researchers identified three dominant life strategies linked to different types of soil.
Scientists test a novel design for superconducting switches in magnetic fields.
Scientists in nuclear physics, astrophysics, energy, national security, and medicine use a source of recommended nuclear data to advance their research.
Opposing teams of water-loving and oil-loving molecules separate metals called lanthanides that are important in developing clean energy technologies.
In a warmer world, microbes in drought-stricken soils convert less carbon to carbon dioxide and more to volatile intermediates.
A new correction factor for predicting dissolution rates uses measurable geological properties in fractured media.