05967nam 2200805 a 450 991101892910332120200520144314.09781118586372111858637997811185863581118586352978129927738012992773819781118586310111858631X(CKB)2560000000099413(EBL)1143506(SSID)ssj0000833651(PQKBManifestationID)11529305(PQKBTitleCode)TC0000833651(PQKBWorkID)10936050(PQKB)10221577(MiAaPQ)EBC1143506(PPN)178292613(CaSebORM)9781118586358(OCoLC)839675325(OCoLC)857716862(OCoLC)ocn857716862(Perlego)1013826(EXLCZ)99256000000009941320101203d2011 uy 0engur|n|---|||||txtccrMicrowave photonic links components and circuits /Christian Rumelhard, Catherine Algani, Anne-Laure Billabert1st editionLondon ISTE ;Hoboken, N.J. J. Wiley20111 online resource (420 p.)ISTEAdapted and updated from Composants et circuits pour liaisons photoniques en micro-ondes published 2010 in France by Hermes Science/Lavoisier.9781848212268 1848212267 Includes bibliographical references (p. [367]-391) and index.Cover; Microwave Photonic Links; Title Page; Copyright Page; Table of Contents; Preface; Abbrevation Glossary; Chapter 1 General Points; 1.1. Microwave photonic links; 1.2. Link description; 1.3. Signal to transmit; 1.3.1. Microwave signal; 1.3.2. Microwave carrier for a digital signal; 1.3.3. UWB signal; 1.3.4. Optical carrier; 1.3.5. Summary; 1.4. Limitations of microwave photonic links; 1.4.1. Limitations due to the materials constituting the different elements; 1.4.2. Noise sources in microwave photonic links; 1.4.3. Nonlinearities1.5. The components and characteristics of microwave photonic linksChapter 2 Generation and Modulation of Light; 2.1. Laser; 2.1.1. General points; 2.1.2. Semiconductor laser structure and optical gain in the active zone; 2.1.3. Operation of a Fabry-Perot laser; 2.1.4. Optical confinement factor and rate equations; 2.1.5. Static mode of laser operation (or CW mode of operation); 2.1.6. Dynamic mode of laser operation: RF small signal response; 2.1.7. RIN laser noise; 2.1.8. Increase in 1/f of RIN and superposition of a small signal and noise; 2.1.9. Different laser configurations2.1.10. CAD laser models2.1.11. Laser measurements and temperature stabilization; 2.2. Electro-optic modulator: EOM; 2.2.1. General physical principles; 2.2.2. Pockels or linear electro-optical effect; 2.2.3. Mach-Zehnder electro-optic modulator; 2.2.4. Single-Drive MZM: one driving electrode; 2.2.5. Dual-drive MZM: two driving electrodes; 2.2.6. Real Mach-Zehnder modulator: characteristics and performances; 2.2.7. Mach-Zehnder modulator technology; 2.3. Electro-absorption modulator: EAM; 2.3.1. Electro-absorption effect; 2.3.2. FKE; 2.3.3. Stark effect; 2.3.4. Quantum well structures2.3.5. MEA operation2.3.6. Characteristics of an EAM; 2.3.7. EML: EAM integrated to a DFB laser; 2.3.8. EAM electrical modeling for ultra-fast signal simulation; Chapter 3 Optical Fibers and Amplifiers; 3.1. Optical fibers; 3.1.1. General; 3.1.2. Material attenuation; 3.1.3. Material refraction index and dispersion; 3.1.4. Total reflection, numerical aperture, transmitted maximum frequency; 3.1.5. Step-index fiber; 3.1.6. Graded index fiber; 3.1.7. Single-mode fiber; 3.1.8. Plastic optical fibers; 3.2. Optical amplifiers; 3.2.1. Semiconductor optical amplifiers: SOA; 3.2.2. EDFAs3.3. Appendix: modal analysis of propagation in a fiber3.3.1. Maxwell equations; 3.3.2. Maxwell equations in a cylindrical fiber; 3.3.3. Continuity and characteristic equation conditions; 3.3.4. Research of different propagation modes; 3.3.5. Approximation of linearly polarized modes; Chapter 4 Photodetectors; 4.1. Photodetector definition; 4.2. Photodiodes; 4.2.1. Presentation; 4.2.2. Light absorption in a semiconductor; 4.2.3. p-i-n photodiode; 4.2.4. Metal-semiconductor-metal or MSM photodiode; 4.2.5. Equivalent circuits for p-i-n and MSM photodiodes; 4.2.6. Nonlinearities4.2.7. UTC photodiodesThis book presents the electrical models for the different elements of a photonic microwave link like lasers, external modulators, optical fibers, photodiodes and phototransistors. The future trends of these components are also introduced: lasers to VCSEL, external modulators to electro-absorption modulators, glass optical fibers to plastic optical fibers, photodiodes to UTC photodiodes or phototransistors. It also describes an original methodology to evaluate the performance of a microwave photonic link, based on the developed elcetrical models, that can be easily incorporated in ISTEOptical communicationsEquipment and suppliesMicrowave communication systemsEquipment and suppliesTelecommunicationSwitching systemsOptical communicationsEquipment and supplies.Microwave communication systemsEquipment and supplies.TelecommunicationSwitching systems.621.381/3Rumelhard Christian967974Algani Catherine967975Billabert Anne-Laure967976MiAaPQMiAaPQMiAaPQBOOK9911018929103321Microwave photonic links4419739UNINA