Advanced Certificate in Nanoscale Plasmonic Structures
-- ViewingNowThe Advanced Certificate in Nanoscale Plasmonic Structures is a comprehensive course designed to provide learners with in-depth knowledge of plasmonic structures and their applications at the nanoscale. This course is essential for professionals working in the field of nanotechnology, physics, electrical engineering, and materials science.
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⢠Fundamentals of Nanoscale Plasmonic Structures: An introduction to the basic principles and theories of plasmonic structures at the nanoscale, including surface plasmons, localized surface plasmons, and propagating surface plasmons.
⢠Nanofabrication Techniques: An exploration of the various methods and techniques used to fabricate nanoscale plasmonic structures, including lithography, self-assembly, and etching.
⢠Optical Properties of Metallic Nanostructures: A study of the optical properties of metallic nanostructures, including absorption, scattering, and extinction, and their dependence on size, shape, and material properties.
⢠Plasmonic Sensing and Biosensing: An examination of the use of plasmonic structures for sensing and biosensing applications, including surface-enhanced Raman spectroscopy, localized surface plasmon resonance, and plasmonic photothermal therapy.
⢠Nonlinear Plasmonics: An exploration of the nonlinear optical properties of plasmonic structures, including second- and third-harmonic generation, and their potential applications in all-optical switching, frequency conversion, and imaging.
⢠Quantum Plasmonics: A study of the quantum properties of plasmonic structures, including plasmon-exciton interactions, plasmon-induced transparency, and quantum coherence, and their potential applications in quantum information processing and communication.
⢠Computational Modeling of Plasmonic Structures: An introduction to the computational methods and tools used to model and simulate the behavior of plasmonic structures, including finite-difference time-domain (FDTD) methods, finite-element methods (FEM), and boundary-element methods (BEM).
⢠Emerging Applications of Plasmonic Structures: An exploration of the emerging applications of plasmonic structures, including plasmonic metamaterials, transformation optics, and clo
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