Plasmon polaritons are quasiparticles made up of particles of light (photons) and particles of matter (plasmons) that exist in nanostructures. They have been used in nanotechnology for a variety of applications, such as surface-enhanced Raman spectroscopy, optical sensing and imaging, and photovoltaic devices. Plasmon polaritons are created when light interacts with a nanostructure, such as a metal nanoparticle. The electromagnetic field of the light causes the electrons on the surface of the nanoparticle to oscillate in a collective manner, forming a wave known as a plasmon. When the plasmon wave meets the light wave, the two waves interact and form a new wave, the plasmon polariton, which is composed of both light and matter. Plasmon polaritons are advantageous in nanotechnology because they can be used to localize light in nanometer-scale structures. This allows for more precise manipulation and control of light at the nanoscale. Additionally, the interaction between light and matter in the plasmon polaritons results in an increase in the intensity of light, which can be used to increase the efficiency of photovoltage.
Thomas J Webster
Hebei University of Technology, United States
Hossein Hosseinkhani
Innovation Center for Advanced Technology, Matrix, Inc., United States
Hai Feng Ji
Drexel University, United States
Paulo Cesar De Morais
Catholic University of Brasilia, Brazil
Azzedine Bensalem
Long Island University, United States
Robert Buenker
Wuppertal University, Germany
Rafal Kozubski
Jagiellonian University in Krakow, Poland
Sylwia Wcislik
Kielce University of Technology, Poland
Raman Singh
Monash University-Clayton Campus, Australia
Michael I Tribelsky
Moscow State University, Russian FederationSubmit your abstract Today
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