A new AI model generates realistic synthetic microscope images of atoms, providing scientists with reliable training data to accelerate materials research and atomic scale analysis. (Nanowerk ...

The new research presented in Physical Review Letters explains the complex process that requires not just energy to escape, but also tight maneuvering through a quantum door. Despite its widespread ...

Monte Carlo track structure codes provide valuable information for understanding radiation effects down to the DNA level, where experimental measurements are most difficult or unavailable. It is well ...

Ballistic electrons are among the most fascinating phenomena in modern quantum materials. Unlike ordinary electrons, they do ...

When light hits the surface of some materials, namely those exhibiting a property known as photoresistance, it can induce changes in their electrical conductivity. Graphene is among these materials, ...

In biological systems, electron flow often occurs very quickly between distant redox centers in electron-transfer proteins. Researchers have proposed that charge transfer in such proteins is ...

Monte Carlo simulation of electrons stopping in liquid water was used to model the penetration and quality of electron-beam irradiation incident on the full-thickness EpiDerm™ skin model (EpiDermFT™ ...

Researchers at CERN may be on the verge of explaining the universe’s missing gamma rays and hidden magnetic fields.

Researchers uncover ultrafast energy flow in graphene, revealing complex electron-phonon dynamics that challenge classical heat transfer models at the nanoscale. (Nanowerk News) Managing heat ...