What If Metals Could Conduct Light?
In the unusual world of quantum materials, metals can guide light in their interiors instead of merely reflecting it.
In the unusual world of quantum materials, metals can guide light in their interiors instead of merely reflecting it.
Scientists create a genome-wide map of gene activity in bacteriophages.
Classical and quantum chips combine to simulate the collision of two neutrons on a present-day quantum computer.
Pushing boundaries with radioactive molecules for future studies of nuclear structure and fundamental symmetry.
Researchers dramatically improve the limits for several exotic dark matter models.
Scientists study a key reaction in X-ray bursts, shedding light on the reaction mechanisms behind thermonuclear flare-ups during these events.
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.
Quantum entanglement changes in atomic nuclei in ways that differ from other systems.
Assessing the genomes of soil bacteria around the globe, researchers identified three dominant life strategies linked to different types of soil.
In a warmer world, microbes in drought-stricken soils convert less carbon to carbon dioxide and more to volatile intermediates.