Description

Book Synopsis
Now in its second edition, this book has been thoroughly updated to provide a current overview of the theoretical and experimental concepts needed to understand and work in nano-optics. This is an invaluable reference for graduate students entering the field, as well as for researchers and course teachers.

Trade Review
'The reader will appreciate its scope and depth, as it covers topics ranging from resolution and microscopy to metamaterials and optical antennas. This book provides an integrated approach to the entire field, and the format breaks the material into accessible sub-units. The physical and mathematical rigor is high, and approximations and limitations of the theory and the experimental devices are clearly stated. The material is highly recommended for a graduate course.' Barry R. Masters, Optics and Photonics News
'This text responds to the growing importance of nanoscience, and presents a rare collection of topics across optics and microscopy at the nanoscale. A major goal of nano-optics is to extend the use of optical techniques to length scales beyond the diffraction limit. Notably, the book features a valuable discussion of resolution, localization and position accuracy in microscopy. A non-exhaustive list of subjects covered in later chapters includes near- and far-field microscopy techniques, quantum emitters and surface plasmons in nanostructures.' Lukas Novotny and Bert Hecht, 'All-Time Favourites', Nature Photonics

Table of Contents
Preface; 1. Introduction; 2. Theoretical foundations; 3. Propagation and focusing of optical fields; 4. Resolution and localization; 5. Nanoscale optical microscopy; 6. Near-field optical probes; 7. Probe-sample distance control; 8. Optical interactions; 9. Quantum emitters; 10. Dipole emission near planar interfaces; 11. Photonic crystals, resonators, and cavity optomechanics; 12. Surface plasmons; 13. Optical antennas; 14. Forces in confined fields; 15. Fluctuation-induced interactions; 16. Theoretical methods in nano-optics; Appendices; Index.

Principles of NanoOptics

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    Science & Nature Optical physics Technology, Engineering & Agriculture Nanotechnology

    Description

    Book Synopsis
    Now in its second edition, this book has been thoroughly updated to provide a current overview of the theoretical and experimental concepts needed to understand and work in nano-optics. This is an invaluable reference for graduate students entering the field, as well as for researchers and course teachers.

    Trade Review
    'The reader will appreciate its scope and depth, as it covers topics ranging from resolution and microscopy to metamaterials and optical antennas. This book provides an integrated approach to the entire field, and the format breaks the material into accessible sub-units. The physical and mathematical rigor is high, and approximations and limitations of the theory and the experimental devices are clearly stated. The material is highly recommended for a graduate course.' Barry R. Masters, Optics and Photonics News
    'This text responds to the growing importance of nanoscience, and presents a rare collection of topics across optics and microscopy at the nanoscale. A major goal of nano-optics is to extend the use of optical techniques to length scales beyond the diffraction limit. Notably, the book features a valuable discussion of resolution, localization and position accuracy in microscopy. A non-exhaustive list of subjects covered in later chapters includes near- and far-field microscopy techniques, quantum emitters and surface plasmons in nanostructures.' Lukas Novotny and Bert Hecht, 'All-Time Favourites', Nature Photonics

    Table of Contents
    Preface; 1. Introduction; 2. Theoretical foundations; 3. Propagation and focusing of optical fields; 4. Resolution and localization; 5. Nanoscale optical microscopy; 6. Near-field optical probes; 7. Probe-sample distance control; 8. Optical interactions; 9. Quantum emitters; 10. Dipole emission near planar interfaces; 11. Photonic crystals, resonators, and cavity optomechanics; 12. Surface plasmons; 13. Optical antennas; 14. Forces in confined fields; 15. Fluctuation-induced interactions; 16. Theoretical methods in nano-optics; Appendices; Index.

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