Quantum or not? Mathematical equations resolve nanostructures behavior

Understanding the transport of electrons in nanostructures and biological molecules is crucial to understanding properties such as electrical conductivity or the biochemical behavior of molecules. However, determining whether the electrons are behaving according to the classical laws of motion or the quantum mechanical regime at the nanoscale is challenging because many nanostructures fall in a grey area between both regimes. Japanese researchers from the RIKEN Advanced Science Institute in Wako, with colleagues from Germany and Taiwan, have now devised a set of mathematical equations that can distinguish classical from quantum mechanical behavior of electrons in nanostructures.

Quantum or not? Mathematical equations resolve nanostructures behavior

Understanding the transport of electrons in nanostructures and biological molecules is crucial to understanding properties such as electrical conductivity or the biochemical behavior of molecules. ...

Fri 17 Dec 10 from Phys.org

Resolving Whether Electron Transport in Nanostructures Follows Classical or Quantum Mechanical Behavior, Fri 17 Dec 10 from AZoNano

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