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

This necessitates photoelectronic molecules that can be excited by multiple photons and transfer multiple electrons to achieve charge accumulation. Previous studies have reported the use of ...

A qubit, the quantum counterpart of the classical binary digit, can be constructed based on a system with two possible quantum states. For instance, superconducting circuits have been employed to ...

The complex photophysics of the wild-type green fluorescent protein (GFP), one of the most popular fluorescent probes in biology, has been extensively documented in literature. The excited-state ...

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 ...

Researchers at the University of Innsbruck, along with those at Dortmund, Bayreuth, and Linz universities, have demonstrated ...

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.

GW approximation is a powerful approach to accurately describe the excited-state of semiconductors. However, GW incurs high computational cost $\\mathcal{O}\\left(N^{4}\\right)$ and large memory usage ...

In some cases, even low-lying excited states of small molecules have a mixed character, where distinct configurations associated with the excitation of an electron to a valence or Rydberg molecular ...