A resonance effect can significantly affect how a three-atom molecule cools down when excited, RIKEN physicists have found.

Researchers at the Indian Institute of Science (IISc) and the California Institute of Technology (Caltech) have solved a long ...

UC Riverside scientists built a molecular silicon switch that controls electricity using quantum interference instead of ...

Scientists have discovered a revolutionary new method for creating quantum states by twisting materials at the M-point, revealing exotic phenomena previously out of reach. This new direction ...

Knowable Magazine reports on attosecond science, revealing how scientists study atomic interactions at unbelievable speeds to ...

A new blue fluorescent molecule set new top emission efficiencies in both solid and liquid states, according to a University of Michigan-led study that could pave the way for applications in ...

Silver-110’s decay reveals a promising path to measure antineutrino mass. New data could reshape future neutrino studies.

Neutron lifetime mystery could now find a solution in ‘excited state’ The study revealed a surprising difference in neutron lifetimes: those in beams live about eight seconds longer than those ...

Both approaches produce similar unoccupied band structures in the ground state that qualitatively agree with our many-electron excited state calculation. The model-dependent differences in the ...

Find out how solar cells power a good portion of homes today—and how they might power almost everything in the future.

To calculate the configuration coordinate diagram (CCD) for a donor defect, assuming the ground state is D⁰ and the excited state involves an electron transition to the conduction band (D⁺+ e⁻), ...