Applied nanophotonics / Sergey V. Gaponenko, Hilmi Volkan Demir.
Gaponenko, Sergey V.| Call Number | 621.36/5 |
| Author | Gaponenko, Sergey V., author. |
| Title | Applied nanophotonics / Sergey V. Gaponenko, Hilmi Volkan Demir. |
| Physical Description | 1 online resource (xvii, 433 pages) : digital, PDF file(s). |
| Notes | Title from publisher's bibliographic system (viewed on 15 Nov 2018). |
| Contents | Electrons in potential wells and in solids -- Quantum confinement effects in semiconductors -- Light waves in restricted geometries -- Spontaneous emission of photons and lifetime engineering -- Stimulated emission and lasing -- Energy transfer processes -- Lighting with nanostructures -- Lasers -- Photonic circuitry -- Photovoltaics -- Emerging nanophotonics. |
| Summary | With full color throughout, this unique text provides an accessible yet rigorous introduction to the basic principles, technology, and applications of nanophotonics. It explains key physical concepts such as quantum confinement in semiconductors, light confinement in metal and dielectric nanostructures, and wave coupling in nanostructures, and describes how they can be applied in lighting sources, lasers, photonic circuitry, and photovoltaic systems. Readers will gain an intuitive insight into the commercial implementation of nanophotonic components, in both current and potential future devices, as well as challenges facing the field. The fundamentals of semiconductor optics, optical material properties, and light propagation are included, and new and emerging fields such as colloidal photonics, Si-based photonics, nanoplasmonics, and bioinspired photonics are all discussed. This is the 'go-to' guide for graduate students and researchers in electrical engineering who are interested in nanophotonics, and students taking nanophotonics courses. |
| Added Author | Demir, Hilmi Volkan, author. |
| Subject | Nanophotonics. |
| Multimedia |
Total Ratings:
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$a Title from publisher's bibliographic system (viewed on 15 Nov 2018).
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$a Electrons in potential wells and in solids -- Quantum confinement effects in semiconductors -- Light waves in restricted geometries -- Spontaneous emission of photons and lifetime engineering -- Stimulated emission and lasing -- Energy transfer processes -- Lighting with nanostructures -- Lasers -- Photonic circuitry -- Photovoltaics -- Emerging nanophotonics.
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$a With full color throughout, this unique text provides an accessible yet rigorous introduction to the basic principles, technology, and applications of nanophotonics. It explains key physical concepts such as quantum confinement in semiconductors, light confinement in metal and dielectric nanostructures, and wave coupling in nanostructures, and describes how they can be applied in lighting sources, lasers, photonic circuitry, and photovoltaic systems. Readers will gain an intuitive insight into the commercial implementation of nanophotonic components, in both current and potential future devices, as well as challenges facing the field. The fundamentals of semiconductor optics, optical material properties, and light propagation are included, and new and emerging fields such as colloidal photonics, Si-based photonics, nanoplasmonics, and bioinspired photonics are all discussed. This is the 'go-to' guide for graduate students and researchers in electrical engineering who are interested in nanophotonics, and students taking nanophotonics courses.
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| Summary | With full color throughout, this unique text provides an accessible yet rigorous introduction to the basic principles, technology, and applications of nanophotonics. It explains key physical concepts such as quantum confinement in semiconductors, light confinement in metal and dielectric nanostructures, and wave coupling in nanostructures, and describes how they can be applied in lighting sources, lasers, photonic circuitry, and photovoltaic systems. Readers will gain an intuitive insight into the commercial implementation of nanophotonic components, in both current and potential future devices, as well as challenges facing the field. The fundamentals of semiconductor optics, optical material properties, and light propagation are included, and new and emerging fields such as colloidal photonics, Si-based photonics, nanoplasmonics, and bioinspired photonics are all discussed. This is the 'go-to' guide for graduate students and researchers in electrical engineering who are interested in nanophotonics, and students taking nanophotonics courses. |
| Notes | Title from publisher's bibliographic system (viewed on 15 Nov 2018). |
| Contents | Electrons in potential wells and in solids -- Quantum confinement effects in semiconductors -- Light waves in restricted geometries -- Spontaneous emission of photons and lifetime engineering -- Stimulated emission and lasing -- Energy transfer processes -- Lighting with nanostructures -- Lasers -- Photonic circuitry -- Photovoltaics -- Emerging nanophotonics. |
| Subject | Nanophotonics. |
| Multimedia |