Executive Development Programme in Nanoscale Plasmonic Circuitry
-- ViewingNowThe Executive Development Programme in Nanoscale Plasmonic Circuitry is a certificate course designed to provide learners with critical knowledge in the rapidly evolving field of nanoscale plasmonic circuitry. This programme emphasizes the importance of nanoscale plasmonic circuitry in addressing challenges in various industries, such as telecommunications, computing, and healthcare.
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⢠Fundamentals of Nanoscale Plasmonic Circuitry: An introductory unit covering the basics of plasmonic circuitry, including the behavior of light at the nanoscale and the principles of plasmonic waveguiding. ⢠Nanofabrication Techniques: This unit will focus on the latest nanofabrication techniques used in creating plasmonic circuits, including electron beam lithography, nanoimprint lithography, and focused ion beam milling. ⢠Plasmonic Materials and Devices: An exploration of the various materials used in plasmonic circuits, including metals, dielectrics, and 2D materials, as well as the design and fabrication of plasmonic devices. ⢠Nanoscale Optoelectronics: This unit will cover the integration of plasmonic circuits with electronic devices, including photodetectors, modulators, and optical interconnects. ⢠Simulation and Design of Plasmonic Circuits: Participants will learn about the various simulation tools and design methodologies used in creating plasmonic circuits, including finite-difference time-domain (FDTD) simulations, coupled mode theory, and inverse design. ⢠Quantum Plasmonics: An advanced unit covering the latest research in quantum plasmonics, including the interaction of plasmons with quantum emitters, plasmonic lattices, and topological insulators. ⢠Applications of Nanoscale Plasmonic Circuitry: This unit will explore the various applications of plasmonic circuitry, including sensing, imaging, communications, and computing. ⢠Industry Trends and Future Directions: A forward-looking unit covering the latest industry trends in plasmonic circuitry, including the development of plasmonic-based biosensors, plasmonic-enhanced solar cells, and plasmonic computing architectures.
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