Principles of Nano-Optics
Nano-optics is the study of optical phenomena and techniques on the nanometer scale, that is, near or beyond the diffraction limit of light. It is an emerging field of study, motivated by the rapid advance of nanoscience and nanotechnology which require adequate tools and strategies for fabrication, manipulation and characterization at this scale. In this 2006 text the authors provide a comprehensive overview of the theoretical and experimental concepts necessary to understand and work in nano-optics. With a very broad perspective, they cover optical phenomena relevant to the nanoscale across diverse areas ranging from quantum optics to biophysics, introducing and extensively describing all of the significant methods. Written for graduate students who want to enter the field, the text includes problem sets to reinforce and extend the discussion. It is also a valuable reference for researchers and course teachers.
1119394010
Principles of Nano-Optics
Nano-optics is the study of optical phenomena and techniques on the nanometer scale, that is, near or beyond the diffraction limit of light. It is an emerging field of study, motivated by the rapid advance of nanoscience and nanotechnology which require adequate tools and strategies for fabrication, manipulation and characterization at this scale. In this 2006 text the authors provide a comprehensive overview of the theoretical and experimental concepts necessary to understand and work in nano-optics. With a very broad perspective, they cover optical phenomena relevant to the nanoscale across diverse areas ranging from quantum optics to biophysics, introducing and extensively describing all of the significant methods. Written for graduate students who want to enter the field, the text includes problem sets to reinforce and extend the discussion. It is also a valuable reference for researchers and course teachers.
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Principles of Nano-Optics

Principles of Nano-Optics

by Lukas Novotny, Bert Hecht
Principles of Nano-Optics
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Principles of Nano-Optics

Principles of Nano-Optics

by Lukas Novotny, Bert Hecht

Overview

Nano-optics is the study of optical phenomena and techniques on the nanometer scale, that is, near or beyond the diffraction limit of light. It is an emerging field of study, motivated by the rapid advance of nanoscience and nanotechnology which require adequate tools and strategies for fabrication, manipulation and characterization at this scale. In this 2006 text the authors provide a comprehensive overview of the theoretical and experimental concepts necessary to understand and work in nano-optics. With a very broad perspective, they cover optical phenomena relevant to the nanoscale across diverse areas ranging from quantum optics to biophysics, introducing and extensively describing all of the significant methods. Written for graduate students who want to enter the field, the text includes problem sets to reinforce and extend the discussion. It is also a valuable reference for researchers and course teachers.

Product Details

ISBN-13: 9781139637114
Publisher: Cambridge University Press
Publication date: 06/01/2006
Sold by: Barnes & Noble
Format: eBook
File size: 41 MB
Note: This product may take a few minutes to download.

About the Author

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.

Bert Hecht is a Full Professor of Experimental Physics at the University of Würzburg. In his early career he worked in near-field optical microscopy and plasmonics at the IBM Zurich Research Laboratory (Rüschlikon). After receiving his Ph.D. in 1996, he joined the Physical Chemistry Laboratory of ETH Zürich, studying the combination of single-molecule spectroscopy with scanning probe techniques. He was awarded a Swiss National Science Foundation research professorship at the University of Basel in 2001 and has been a recipient of DFG Reinhart-Koselleck funding.

Table of Contents

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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