Executive Development Programme in Advanced Plasmonics: Actionable Knowledge
-- ViewingNowThe Executive Development Programme in Advanced Plasmonics: Actionable Knowledge is a certificate course designed to empower professionals with cutting-edge knowledge in plasmonics, a rapidly growing field with significant implications for technology and innovation. This course is crucial for professionals seeking to stay ahead in industries such as nanophotonics, biomedical engineering, and renewable energy, where plasmonic effects are increasingly being harnessed for advanced applications.
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⢠Fundamentals of Plasmonics: An introduction to plasmonic principles, optical properties of metals, and surface plasmon resonance.
⢠Advanced Plasmonic Materials: Exploring the latest materials and nanostructures for plasmonic applications, including metals, metal oxides, and 2D materials.
⢠Plasmonic Nanofabrication Techniques: Examining state-of-the-art fabrication and lithography methods, such as electron beam lithography, nanoimprint lithography, and focused ion beam milling.
⢠Plasmonic Sensing and Biosensing: Delving into plasmonic-based sensing mechanisms, label-free detection, and applications in biomedicine, environmental monitoring, and food safety.
⢠Nanoplasmonic Devices and Systems: Design and optimization of plasmonic devices, such as metasurfaces, plasmonic waveguides, and nanoantennas, for various applications, including optical computing, imaging, and communication.
⢠Nonlinear Plasmonics: Investigating nonlinear optical phenomena in plasmonic systems, including harmonic generation, four-wave mixing, and second-harmonic generation.
⢠Quantum Plasmonics: Exploring the intersection of plasmonics and quantum optics, including quantum plasmonic circuits, single-photon sources, and quantum information processing.
⢠Plasmonic Metamaterials: Design and simulation of metamaterials with tailored optical properties, negative refractive indices, and super-resolution imaging.
⢠Computational Plasmonics: Utilizing numerical methods and simulation tools to model and optimize plasmonic structures and devices.
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