If you think of a single atom as a grain of sand, then a wavelength of visible light—which is a thousand times larger than ...
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Can the frog escape? Quantum study reveals hidden exits for trapped electrons Can the frog escape? Quantum study reveals hidden exits for trapped electrons
A team of researchers from TU Wien has shed new light on the behavior of electrons fleeing a solid material. Their research ...
When high-energy radiation interacts with water in living organisms, it generates particles and slow-moving electrons that ...
What happens when electrons leave a solid material? This seemingly simple phenomenon has, until now, eluded accurate ...
PMI is an important non-destructive testing method that verifies material composition, ensuring safety and regulatory ...
Electrons in graphene just broke their own sound barrier. Scientists created a controllable electronic shockwave inside a ...
Researchers have found that 2D materials can self-form microscopic cavities that trap light and electrons, altering their quantum behavior. With a miniaturized terahertz spectroscope, the team ...
Low-energy electrons escape from some materials via distinct “doorway” states, according to a study done by physicists at Austria’s Vienna Institute of Technology. The team studied graphene-based ...
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Trapping an electron in a box
What happens when you confine a single electron to an impossibly tiny space? This experiment explores quantum confinement and ...
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