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A Subatomic Challenge Resolved: Supercomputer Calculations Produce the First Accurate Theoretical View of the Sigma Meson
Electron transfer between atomically thin materials triggers the ultrafast release of heat.
Scientists chart a path to sub-femtosecond hard X-ray Free-Electron-Laser pulses powered by compact plasma-based accelerators.
Simulations of massive neutron star merger remnants reveal their structure and early evolution as they cool down by emitting neutrinos.
Research finds ab initio effective field theories are useful for calculating how nucleons scatter from collisions of atomic nuclei.
Scientists resolve the hypothesized anomalous increase in moment of inertia of fast rotating nuclei with models of neon-20 and chromium-48 nuclei.
Scientists develop a new method to characterize the properties of one of the four fundamental forces of nature.
A tungsten carbide catalyst can produce a hydrocarbon from carbon dioxide at high rates and high efficiency.
Scientists can now verify theoretical predictions using one-dimensional compositions grown in-situ at a synchrotron spectroscopy station.
New results will help physicists interpret experimental data from particle collisions and better understand the interactions of quarks and gluons.
Experiments examine atomic disorder and dynamics that could explain beneficial optical properties.
If observed, neutrinoless double-β decay would have changed our view of the Universe.
