Executive Development Programme in Plasmonic Nanolasers: Frontiers
-- ViewingNowThe Executive Development Programme in Plasmonic Nanolasers: Frontiers is a certificate course that provides learners with essential skills in the rapidly evolving field of nanophotonics and laser technology. This program focuses on plasmonic nanolasers, which have gained significant industry attention due to their potential for applications in high-speed data communication, bio-sensing, and medical diagnostics.
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⢠Fundamentals of Plasmonic Nanolasers: An introduction to the basics of plasmonic nanolasers, including their structure, functionality, and applications. This unit will cover primary concepts such as surface plasmons, nanofabrication, and nanophotonics.
⢠Nanolasers Design and Simulation: This unit will delve into the design and simulation of plasmonic nanolasers, using advanced software tools and techniques. Students will learn to optimize the performance of nanolasers for various applications.
⢠Plasmonic Materials and Nanostructures: An exploration of the materials and nanostructures used in plasmonic nanolasers, including metals, semiconductors, and dielectrics. This unit will cover the properties and behavior of these materials and how they impact nanolasers' performance.
⢠Fabrication Techniques for Plasmonic Nanolasers: This unit will examine the various fabrication techniques used to create plasmonic nanolasers, including lithography, etching, and self-assembly. Students will learn the advantages and limitations of each technique and how to choose the best method for a given application.
⢠Characterization and Measurement of Nanolasers: This unit will cover the characterization and measurement of plasmonic nanolasers' properties and performance, including spectral, temporal, and spatial characteristics. Students will learn to use various measurement techniques and instruments, such as spectrometers and optical microscopes.
⢠Integration of Nanolasers with Electronic Devices: This unit will explore the integration of plasmonic nanolasers with electronic devices, including sensors, modulators, and photodetectors. Students will learn about the challenges and opportunities associated with integrating nanolasers with electronics.
⢠Applications of Plasmonic Nanolasers: This unit will examine the various applications of plasmonic nanolasers, including high-speed communications, data storage, and biomedical sensing. Students will learn about the latest research and development in
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