This third edition has been substantially restructured, expanded, and developed to include additional problem sets and important topics such as super-resolution microscopy, random media, and coupled-mode theory. It remains an authoritative text for graduate students and researchers working in photonics, optoelectronics, and nano-optics.
This third edition has been substantially restructured, expanded, and developed to include additional problem sets and important topics such as super-resolution microscopy, random media, and coupled-mode theory. It remains an authoritative text for graduate students and researchers working in photonics, optoelectronics, and nano-optics.
Lukas Novotny is a Professor of Photonics at Eidgenössische Technische Hochschule Zürich. From 1999 to 2012 he was a faculty member of the Institute of Optics at the University of Rochester, where he started one of the first research programs in Nano-Optics. The first edition of 'Principles of Nano-Optics' evolved from the lectures he taught at the Institute.
Inhaltsangabe
1. Introduction 2. Theoretical foundations 3. Propagation and focusing 4. Superresolution 5. Near-field optics 6. Light-matter interactions 7. Quantum emitters 8. Dipole emission near planar interfaces 9. Photonic crystals and metamaterials 10. Random media 11. Optical resonators and optomechanics 12. Coupled mode theory 13. Plasmonics 14. Optical antennas 15. Optical forces 16. Stochastic fields and sources 17. Theoretical methods A. Semi-analytical derivation of the atomic polarizability B. Spontaneous emission in the weak-coupling regime C. Fields of a dipole near a layered substrate D. Far-field green functions E. Power spectral densities Index.
1. Introduction 2. Theoretical foundations 3. Propagation and focusing 4. Superresolution 5. Near-field optics 6. Light-matter interactions 7. Quantum emitters 8. Dipole emission near planar interfaces 9. Photonic crystals and metamaterials 10. Random media 11. Optical resonators and optomechanics 12. Coupled mode theory 13. Plasmonics 14. Optical antennas 15. Optical forces 16. Stochastic fields and sources 17. Theoretical methods A. Semi-analytical derivation of the atomic polarizability B. Spontaneous emission in the weak-coupling regime C. Fields of a dipole near a layered substrate D. Far-field green functions E. Power spectral densities Index.
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