Executive Development Programme in Plasmonics Breakthroughs: Results-Oriented
-- ViewingNowThe Executive Development Programme in Plasmonics Breakthroughs is a cutting-edge certificate course, designed for professionals seeking to expand their expertise in this rapidly growing field. Plasmonics, a branch of nanophotonics, investigates the interaction between electromagnetic fields and free electrons in metallic structures, leading to innovative solutions in various industries.
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⢠Fundamentals of Plasmonics: An introduction to plasmonics, including key concepts, principles, and applications. This unit will cover surface plasmons, localized surface plasmons, and metamaterials.
⢠Plasmonic Materials: An exploration of the materials used in plasmonics, including metals, dielectrics, and 2D materials. This unit will also cover the properties and characteristics of these materials that make them suitable for plasmonic applications.
⢠Plasmonic Devices: A survey of the various plasmonic devices and their applications, such as biosensors, optical switches, and solar cells. This unit will discuss the design, fabrication, and optimization of these devices.
⢠Nanofabrication Techniques: An examination of the nanofabrication techniques used in plasmonics, including lithography, etching, and deposition. This unit will cover the advantages and limitations of each technique and their impact on plasmonic device performance.
⢠Plasmonic Sensing and Detection: A focus on the use of plasmonics in sensing and detection, including biosensors, chemical sensors, and gas sensors. This unit will discuss the principles, design, and applications of plasmonic sensing platforms.
⢠Plasmonic Metamaterials: An exploration of metamaterials in plasmonics, including their design, fabrication, and applications. This unit will cover the unique properties and characteristics of metamaterials that enable novel plasmonic phenomena.
⢠Nonlinear Plasmonics: A survey of nonlinear plasmonic effects, including second and third harmonic generation, four-wave mixing, and optical rectification. This unit will discuss the mechanisms, applications, and challenges of nonlinear plasmonics.
⢠Computational Plasmonics: An examination of the computational methods used in plasmonics, including finite-difference time-domain (FDTD) simulations, Green's function methods, and
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