Database Supplies Recommended Key Properties for All Known Nuclei
Scientists in nuclear physics, astrophysics, energy, national security, and medicine use a source of recommended nuclear data to advance their research.
Scientists in nuclear physics, astrophysics, energy, national security, and medicine use a source of recommended nuclear data to advance their research.
A new experimental measure of Helium-4’s transition from its ground energy state to an excited state closes an apparent gap with theoretical predictions.
New insights reveal details of how strange matter forms.
Researchers design ultra-low radiation cables to reduce background noise for highly sensitive nuclear decay and dark matter detectors.
Finite geometry reveals fundamental properties of charged quantum systems.
The floating block method provides the tools to compute how quantum states overlap and how to build fast and accurate emulators of those systems.
An almost-bound isotope of oxygen undergoes four-neutron decay that challenges theory.
The first results from the MAJORANA experiment dramatically improve current limits on this rare isotope’s decay.
Nitrogen-9 has only two neutrons to its seven protons and decays to an alpha particle by emitting five of its protons in stages.
Bayesian statistical methods help improve the predictability of complex computational models in experimentally unknown research.
Nuclear physicists have found the location of matter inside the proton that comes from the strong force - a fundamental force that holds protons together.
Researchers determined the neutron skin of lead-208 from experimental data collected in lead-lead collisions at the CERN Large Hadron Collider.