2023
DOI: 10.1088/1361-6641/acbb9a
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Orbital-free approach for large-scale electrostatic simulations of quantum nanoelectronics devices

Abstract: The route to reliable quantum nanoelectronic devices hinges on precise control of the electrostatic environment. For this reason, accurate methods for electrostatic simulations are essential in the design process. The most widespread methods for this purpose are the Thomas-Fermi approximation, which provides quick approximate results, and the Schrödinger-Poisson method, which better takes into account quantum mechanical effects. The mentioned methods suffer from relevant shortcomings: the Thomas-Fermi method f… Show more

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