Measurements of particle “flow” and hot matter created in low-energy collisions provide key data in understanding nuclear phase transition.
New research indicates reversing the conventional shape of plasmas could help with fusion reactor operation.
Measurements of nuclear charge radii and state-of-the-art nuclear models challenge the magic of neutron number 32 in potassium isotopes.
A material with a disordered rock salt structure could help make batteries safer, faster-charging, and able to store more energy
Fluctuations in data from collisions of gold nuclei hint at a possible ‘critical point’ in how nuclei melt.
The types of ancient stellar explosions that gave rise to meteoric presolar grains can now be identified thanks to observations of gamma rays emitted by the argon-34 isotope
A unique symbiotic signal is more common among microbes than previously believed and causes unexpected behaviors in pathogenic fungi.
A new approach for measuring nuclear recoils in superconducting quantum sensors enables the first limits on sterile neutrinos from beryllium-7 decay.
Nuclear theorists put pen to paper and code to computer to detail this subatomic particle’s inner structure.
A new approach to functional and physiologically stable DNA origami for biomedical applications
Researchers study how internal stress evolves in high-performance alloys used in jet engines and power turbines.
Tracking particles containing charm quarks offers insight into how quarks combine.
