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Nuclear theorists demonstrate a new method for computing the strengths of subatomic interactions that include up to three particles.
Interactions of quantum “quasiparticles” demonstrate unusual fluid flow.
A team studied some of the smallest particles in the Universe on the nation’s fastest computer, Summit at Oak Ridge National Laboratory.
A material with a disordered rock salt structure could help make batteries safer, faster-charging, and able to store more energy
Researchers unveil a new catalytic mechanism in a novel material used for ammonia synthesis, a key component in fertilizer.
Data from the first observation of a neutron-star collision combined with input from modern nuclear theory narrow the range of neutron star radii.
Neutron and X-ray experiments illuminate the magnetic transitions in hexagonal iron sulfide that transform it from a conductor to an insulator.
Machine learning-based algorithm characterizes materials’ microstructure in 3D and real time.
Scientists reveal oxygen’s hidden talent for filling atomic gaps in 2D semiconductors and the surprising role of electron spin in electronic conductivity
Material traps noble gases at above-freezing temperatures, a difficult and important industrial challenge.
Growing two-dimensional crystals on curved surfaces introduces strain to control the crystal’s light emission.
Forming a staircase in the edge of the plasmas can boost the performance of a fusion reactor
