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Plasmonic simulation
Surface plasmon resonances continue to be of great experimental and theoretical interest in plasmonic structures, or systems often incorporating nanostructured metallic components. This is caused by the surface plasmons' capacity to gather, concentrate, and spread optical energy. The fundamental theoretical underpinnings and computational modelling of such structures are covered in this Feature Article. The excitation of dark modes in bipyramidal nanoparticles, optical transparencies in nanoparticle-quantum dot systems, size dependence of surface plasmon resonances in the limit of very small particle sizes, and optical transmission by nanohole arrays in thin metal films are just a few examples that are provided.
Committee Members
Ephraim Suhir
Portland State University, United States
Thomas J Webster
Interstellar Therapeutics, United States
Robert Buenker
University of Wuppertal, Germany
Will Skene
Montreal University, Canada MAT 2024 Speakers
Valeriy A Buryachenko
Micromechanics & Composites LLC, United States
Anis Rahman
Applied Research & Photonics, Inc, United States
Will Skene
Montreal University, Canada
Robert Guidoin
Laval University, Canada
Robert Buenker
University of Wuppertal, Germany
Martin Krus
Fraunhofer Institute for Building Physics, GermanySubmit your abstract Today
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