MIT physicist 'Riccardo Comin' successfully mapped an electron’s shape in motion, unlocking breakthroughs in quantum physics, ...

Scientists have demonstrated that negative refraction can be achieved using atomic arrays -- without the need for artificially manufactured metamaterials. Scientists have long sought to control light ...

A new trick for illuminating the internal ordering within a special type of magnet could help engineers build better memory-storage devices. Developed by RIKEN physicists, this technique could make ...

Researchers have confirmed the existence of a "nuclear-spin dark state," which could lead to more stable and powerful quantum ...

An international team of physicists has successfully measured the size of a certain type of neutrino to a certain degree. In ...

Three-nucleon force affects nuclear stability, impacting element formation and stellar evolution. The force increases energy ...

The short answer is; no. We will never see atoms using visible light, simply because the wavelength of visible light (around 400 to 700 nanometers) is larger than the size of an atom (around 0.1 to ...

Using a hybrid time–amplitude multiplexing strategy, all 152 potential single- and two-photon events are resolved in a 16-pixel configuration.

Forced to run a labyrinth of carbon atoms uniquely arranged in twisted stacks, electrons do some rather peculiar things.

The periodic table organizes chemical elements based on atomic weight, electron configurations, and chemical properties, ...

The phase-resolved imaging of confined light fields by homodyne detection is a cornerstone of metrology in nano-optics and photonics, but its application in electron microscopy has been limited so far ...