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Experimental demonstration of plasmon–plasmon scattering paves the way for electromagnetic wave-based digital logic concept
We report the experimental demonstration of plasmon–plasmon scattering at room temperature in the inversion layer of a patterned metal–oxide–semiconductor structure. This fundamental result paves the way for the development of plasmon–plasmon scattering logic, a revolutionary digital logic concept b...
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Published in: | AIP advances 2024-06, Vol.14 (6), p.065321-065321-6 |
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container_title | AIP advances |
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creator | De Los Santos, H. J. Ge, J. Wang, G. Ding, S. Berger, P. R. Gajula, D. R. |
description | We report the experimental demonstration of plasmon–plasmon scattering at room temperature in the inversion layer of a patterned metal–oxide–semiconductor structure. This fundamental result paves the way for the development of plasmon–plasmon scattering logic, a revolutionary digital logic concept based on the generation, propagation, and manipulation of plasmons in an electron fluid, which was previously theoretically projected to exhibit femtojoule power dissipations and femtosecond switching speeds, while not demanding expensive nanometer-scale silicon (Si) technology fabrication processes for its implementation. |
doi_str_mv | 10.1063/5.0200796 |
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subjects | Electromagnetic radiation Logic Metal oxide semiconductors Plasmons Room temperature Scattering Silicon |
title | Experimental demonstration of plasmon–plasmon scattering paves the way for electromagnetic wave-based digital logic concept |
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