Scientists successfully measure high-dimensional qudits, cousins to quantum computing qubits.
First measurements of how hypernuclei flow from particle collisions may give insight into the strange matter makeup and properties of neutron stars.
If observed, neutrinoless double-β decay would have changed our view of the Universe.
Nuclear physicists find evidence of superradiant states by looking at the alpha decay of excited states in mirror nuclei.
A soil transplant experiment gives new insights into coastal forests’ resilience in the face of rising seas and increasing storms.
A new strategy makes the stable introduction of new traits simple for newly discovered bacteria.
New measurements at RHIC provide evidence for quark ‘deconfinement’ and insight into the unimaginable temperature of the hottest matter on Earth.
Machine learning techniques track turbulent blobs in millions of frames of video from tokamak experiments.
Physicists use a detector under an Italian mountain to search for rare nuclear processes to explain why our Universe has more matter than antimatter.
Study reveals that initial state conditions set up particle flow patterns, helping zero in on key properties of matter that mimics the early universe.
Researchers combined crystallographic data and computational studies to investigate plutonium-ligand bonding within a hybrid material construct.
Whole-ecosystem warming at SPRUCE exponentially increased available nutrients for plants, but observed responses were not captured by the ELM-SPRUCE model.
