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Researchers explore the effects of radiation and harsh chemicals to optimize americium-241 production.
Researchers gain new insights into a strong bond between the isotope astatine-211 and common chemicals, creating new possibilities for cancer treatment.
Researchers imaged individual barium ions in dense xenon gas, offering a new path toward ultra-low-background searches for neutrinoless double beta decay.
Mapping a way to ferrotoroidicity: the long-sought fourth ferroic order with magnetic-electric properties that can enable new technologies.
An unexpected electron behavior called charge density waves in an iron-germanium metal material presents a new paradigm in emergent quantum phenomena.
A “neutron camera” device reveals how a thermoelectric material maintains an overall crystalline structure despite local dynamic disorder
The intra-beam repulsion that typically degrades electron beam quality can now be used to improve it
Scientists develop a new approach for detecting defects in metal parts produced by additive manufacturing.
A new rechargeable lithium-air battery potentially has four times greater energy density than a traditional lithium-ion battery.
Precise measurement of beryllium-7 nuclear decay recoils directly probes the quantum properties of the neutrino for the first time.
Theorists show gluon fields characterizing gluon saturation can describe a universal pattern of particle emissions—a manifestation of asymptotic symmetry.
Successfully modeling chromium-62 hints at an interesting structure for neutron-laden calcium-60.
