The optical communications reference
Extracting key information from Academic Press's range of prestigious titles in optical communications, this reference gives the R&D optical fiber communications engineer a quick and easy-to-grasp understanding of the current state of the art in optical communications technology, together...
| Otros Autores: | , |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Amsterdam ; Boston :
Elsevier/Academic Press
2010.
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| Edición: | 1st ed |
| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627930606719 |
Tabla de Contenidos:
- Front Cover; Note from the Publisher; The OpticalCommunicationsReference; Copyright; Contents; Section OneOptical theory; Chapter 1.1Geometrical optics; 1.1.1Ray optics conventions and practical rules. Real and virtual objects and images; 1.1.2Thin lenses layout. Microscope and telescope optical configurations; 1.1.3Diaphragms in optical systems. Calculation of aperture angle and field of view. Vignetting; 1.1.4Prisms in optical systems; 1.1.5Solutions to problems; Chapter 1.2Theory of imaging; 1.2.1al aberrations; 1.2.2Diffraction effects and resolution; 1.2.3Image evaluation
- 1.2.4Two special cases1.2.5Solutions to problems; Section TwoOptical waveguides; Chapter 2.1Wave theory of optical waveguides; 2.1.1Waveguide structure; 2.1.2Formation of guided modes; 2.1.3Maxwell's equations; 2.1.4Propagating power; References; Chapter 2.2Planar optical waveguides; 2.2.1Slab waveguides; 2.2.2Rectangular waveguides; 2.2.3Radiation field from waveguide; 2.2.4Multimode interference (MMI) device; References; Section ThreeOptical fibers; Chapter 3.1Optical fibers for broadband communication; 3.1.1Introduction; 3.1.2Optical transparency
- 3.1.3Emergence of fiber amplifiers and DWDM systems3.1.4Fibers for metro networks; 3.1.5Coarse wavelength division multiplexing; 3.1.6Combating PMD in a fiber; 3.1.7Conclusion; Acknowledgments; References; Chapter 3.2Polymer optical fibers; 3.2.1Introduction; 3.2.2Types of POFs; 3.2.3Manufacture of POFs; 3.2.4Comparison between silica fiber and polymer fiber; 3.2.5Applications of POFs; 3.2.6Polymer fiber gratings; 3.2.7Segmented cladding POF; 3.2.8Dyedoped polymer fiber amplifier; 3.2.9Conclusions; References; Chapter 3.3Microstructured optical fibers; 3.3.1Fibers with micron-scale structure
- 3.3.2Overview of optical properties3.3.3Fabrication approaches; 3.3.4Fiber design methodologies; 3.3.5Silica HFs; 3.3.6Soft glass fibers; 3.3.7PBGFs; 3.3.8Conclusion and the future; Acknowledgments; References; Chapter 3.4Photonic bandgap-guided Bragg fibers; 3.4.1Introduction; 3.4.2Bragg fibers; 3.4.3Dispersion compensating Bragg fiber; 3.4.4Bragg fibers for metro networks; 3.4.5Fabrication; 3.4.6Conclusion; References; Section FourOptical transmitters and receivers; Chapter 4.1Optical transmitters; 4.1.1Basic transmitter specification terminology; 4.1.2Light emitting diodes; 4.1.3Lasers
- 4.1.4ModulatorsReferences; Chapter 4.2Optical detectors and receivers; 4.2.1Basic detector specification terminology; 4.2.2PN photodiode; 4.2.3PIN photodiode; 4.2.4Other detectors; 4.2.5Noise; References; Chapter 4.3Fiber optic link design; 4.3.1Figures of merit; 4.3.2Link budget analysis; 4.3.3Optical power penalties; References; Section FiveFiber optic data communication; Chapter 5.1History of fiber optical communication; 5.1.1Earliest civilization to the printing press; 5.1.2The next 500 years: Printing press to year 2000; 5.1.3Fiber optic communication advancement, 1950-2000
- 5.1.4Communication storage and retrieval
