Researchers show that precisely layering nano-thin materials creates excitons -- essentially, artificial atoms -- that can act as quantum information bits, or qubits.

Researchers have taken atomic diffraction to a new level, revealing surprising behaviors in high-energy helium and hydrogen ...

Researchers have developed innovative methods to control the ionization of atoms and molecules using specially structured light beams, challenging traditional limits. This breakthrough could lead to ...

Researchers from the University of Cambridge and the Eindhoven University of Technology have developed an organic ...

Einsteinium-255, produced through irradiation in ILL’s high-flux reactor, provided a continuous supply of fermium-255, ...

Capturing its structural and thermodynamic properties in liquid and glass states remains challenging due to discrepancies between NMR, neutron scattering experiments, and all-atom (AA) simulations.

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Again defying widespread intuition, it turns out that an electron spin can only be prepared in quasi-classical states, which obey the old textbook predictions. Instead we used a much larger particle, ...

In the experiment, SF 6 molecules were exposed to hard X-rays that excited sulfur's innermost electron shells, initiating ... of a neutral but excited sulfur atom, even though multiple electrons ...

it turns out that an electron spin can only be prepared in quasi-classical states, which obey the old textbook predictions. Instead we used a much larger particle, the nucleus of an antimony atom.