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Maxwell's Equations in Matter# Dispersion, Material Resonance And Kramers-kronig Relations, Evanescent Waves. The Plasmonic Resonance, Surface Plasmons and Plasmonic Resonators/waveguides. Introduction To Integrated Photonics, Periodic Optical Nanostructures and Introduction To Metamaterial Engineering# Effective Medium Approximation, Negative Refractive Index and "the Perfect Lens", Super-resolution And Nanoscopy, Transformation Optics With Metamaterials (cloaking). Learning Ouctcomes# The Students Will Learn The Design Principles Of Nano-photonic Devices For Sensing, Imaging, Commuications Etc. in This Respect, The Students Will Acquainted With# 1. The Eletromagmetic Traits of Materials, Required For Nano-photonic Devcies and How To Engineer Them. 2. Unique Electromagnetic Phenomena in Nano-photonics (such As Surface Plasmons). 3. Current and Future Uses For Nano- Photnic Devcies.

Faculty: Electrical and Computer Engineering
|Undergraduate Studies |Graduate Studies

Pre-required courses

44148 - Waves & Distributed Systems

Course with no extra credit

36070 - Nanooptics and Periodic Structures 49055 - Nanophotonics

• Optical metamaterials : fundamentals and applications - Cai, Wenshan
• Optical metamaterials : fundamentals and applications - Cai, Wenshan
• Optical metamaterials [electronic resource] : fundamentals and applications - Cai, Wenshan.
• Plasmonics : fundamentals and applications - Maier, Stefan A.
• Plasmonics : fundamentals and applications - Maier, Stefan A.
• Plasmonics: Fundamentals and Applications [electronic resource] - Maier, Stefan A.
• Principles of nano-optics - Novotny, Lukas
• Silicon photonics : the state of the art
• Silicon photonics [electronic resource] : the state of the art - Reed, Graham T.