Ligand design and electrochemical studies pave a new path toward stable high-valent mid-actinide complexes.
A newly discovered excited state in radioactive sodium-32 has an unusually long lifetime, and its shape dynamics could be the cause.
The Baksan Experiment on Sterile Transitions (BEST) finds evidence of the sterile neutrino, a hypothetical particle that interacts only via gravity
Measurements of the nuclear structure of cesium-136 open a new channel for measurements of astrophysical neutrinos and searches for dark matter.
Machine learning and artificial intelligence accelerate nanomaterials investigations.
A new microscopy technique measures atomic-level distortions, twist angles, and interlayer spacing in graphene.
New computational methods “fingerprint” polymer motions under flow.
Department of Energy user facility helps probe questions from changes in the structure of nuclei to nuclear reactions that shape the Universe.
A new system for detecting photons in laser-powered quantum computers brings these systems closer to reality.
Matter inside neutron stars can have different forms: a dense liquid of nucleons or a dense liquid of quarks.
Researchers examine the structure of the low-energy nuclear states of carbon-12 using nuclear lattice effective field theory.
Simulations of binary neutron star mergers suggest that future detectors will distinguish between different models of hot nuclear matter.
