Plasmonics
Plasmonics studies the interaction between electromagnetic waves and free electrons in metals, leading to collective oscillations known as plasmons. These phenomena occur at metal–dielectric interfaces and enable confinement of light below the diffraction limit. Plasmonics allows manipulation of light at nanometer scales, far smaller than conventional optical components. This field is crucial for developing nanoscale optical devices, sensors, and photonic circuits. Applications include surface-enhanced spectroscopy, biosensing, and high-resolution imaging. Plasmonic structures enhance electromagnetic fields, increasing sensitivity in chemical and biological detection. Despite challenges such as energy loss in metals, ongoing research aims to improve efficiency and integration. Plasmonics bridges optics and nanotechnology, offering powerful tools for miniaturized optical systems.
Thomas F Ramos
Lawrence Livermore National Laboratory, United States
Ephraim Suhir
Portland State University, United States
Alexander Unzicker
Pestalozzi Gymnasium Munchen, Germany
Thomas J Webster
Brown University, United States
Jon H Brasher
Stelleo Scientific Foundation, United States
Jason Liu
West Windsor-Plainsboro High School North, United States
Tom Lawrence
Ronin Institute of Independent Scholarship 2.0, United KingdomSubmit your abstract Today
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