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NANOPHOTONIQUE
This course gives an overview of the major achievements in nanophotonics. Revisiting the basics of light-matter interaction in condensed matter, we will explore both recent fundamental research and technological developments in nanoscience and photonics. A large emphasis will be put on the discusssion of seminal experimental results.
Indicative list of topics :
- light-matter interaction in condensed matter (excitons, polaritons, plasmons,…)
- spectroscopic techniques
- plasmonics
- optoelectronic semi-conducting nano-devicess : diodes, lasers, quantum cascade lasers…
- micro-resonators and quantum photonics
- new two-dimensional materials (graphene, dichalcogenides,...)
Course given by Christophe Voisin, tutorials by Emmanuel Baudin
Indicative bibliography :
- Novotny and Hecht, Principles of nano-optics, Cambridge U. Press
- Klingshirn, Semi-conducting optics, Springer
- Yu & Cardona, Fundamentals of semi-conductors, Springer
- D. Wood, Opto-electronic devices, Prentice Hall
- J. Joannopoulos, Photonic crystals, Princeton U. Press
- M. Ducloy, Quantum optics of confined systems, Kluwer Acad. Pub.
Slides of the lectures :
Ressources :
Tutorials :