Optical Fiber Telecommunications : Components and Subsystems

Optical Fiber Telecommunications Components and Subsystems

Optical Fiber Telecommunications V (A&B) is the fifth in a series that has chronicled the progress in the research and development of lightwave communications since the early 1970s. Written by active authorities from academia and industry, this edition not only brings a fresh look to many essent...

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Detalles Bibliográficos
Autor principal: Li, Tingye (-)
Otros Autores: Willner, Alan E., Kaminow, Ivan
Formato: Libro electrónico
Idioma:Inglés
Publicado: Burlington : Elsevier Science 2010.
Edición:5th ed
Colección:Optics and Photonics
Materias:
Fiber optics.
Optical communications.
Optical fiber communication > Equipment and supplies.
Optical fiber communication.
Telecommunication systems > Management.
Electrical & Computer Engineering
Engineering & Applied Sciences
Telecommunications
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009644316706719
Tabla de Contenidos:
  • Front Cover; Optical Fiber Telecommunications V A: Components and Subsystems; Copyright Page; Table of Contents; Contributors; Chapter 1 Overview of OFT V Volumes A & B; 1.1 FIVE EDITIONS; 1.2 PERSPECTIVE OF THE PAST 6 YEARS; 1.3 OFT V VOLUME A: COMPONENTS AND SUBSYSTEMS; 1.4 OFT V VOLUME B: SYSTEMS AND NETWORKS; ACKNOWLEDGMENTS; Chapter 2 Semiconductor Quantum Dots: Genesis-The Excitonic Zoo-Novel Devices for Future Applications; 2.1 PREFACE; 2.2 THE PREHISTORIC ERA-OR WHY DID A PROMISING APPROACH ALMOST DIE; 2.3 A NEW DAWN AND COLLECTIVE BLINDNESS; 2.4 DECISIVE BREAK-THROUGHS
  • 2.5 PARADIGM CHANGES IN SEMICONDUCTOR PHYSICS AND TECHNOLOGY2.6 ANYTHING SPECIAL ABOUT THE ELECTRONIC AND OPTICAL PROPERTIES?; 2.7 ARE SINGLE QDs GOOD FOR ANYTHING?; 2.8 UTILIZATION OF MANY QDs; 2.9 HIGH-SPEED NANOPHOTONICS; 2.10 ARE QDs A HYPE?; ACKNOWLEDGMENTS; REFERENCES; Chapter 3 High-Speed Low-Chirp Semiconductor Lasers; 3.1 INTRODUCTION; 3.2 FUNDAMENTAL DC PROPERTIES OF LONG-WAVELENGTH QW LASERS; 3.3 HIGH-SPEED DIRECT MODULATION OF STRAINED QW LASERS; 3.4 QUANTUM DOT LASERS; 3.5 DISCUSSIONS; ACKNOWLEDGMENT; REFERENCES; Chapter 4 Recent Advances in Surface-Emitting Lasers
  • 4.1 INTRODUCTION4.2 LONG-WAVELENGTH VCSELs; 4.3 WAVELENGTH INTEGRATION AND CONTROL; 4.4 PLASMONIC VCSELs; 4.5 OPTICAL SIGNAL PROCESSING BASED ON VCSEL TECHNOLOGIES; 4.6 VCSEL-BASED SLOW LIGHT DEVICES; 4.7 CONCLUSION; REFERENCES; Chapter 5 Pump Diode Lasers; 5.1 INTRODUCTION; 5.2 SINGLE-MODE FIBER 980-NM PUMPS; 5.3 1480-nm PUMPS AND 14XX-nm HIGH-POWER LASERS; 5.4 MULTIMODE FIBER-COUPLED 9xx nm PUMP LASERS; 5.5 HIGH-RADIANCE DIODE LASER TECHNOLOGIES; 5.6 VCSEL PUMP AND HIGH-POWER DIODE LASERS; 5.7 STATUS, TRENDS, AND OPPORTUNITIES; ACKNOWLEDGMENTS; REFERENCES
  • Chapter 6 Ultrahigh-Speed Laser Modulation by Injection Locking6.1 INTRODUCTION; 6.2 BASIC PRINCIPLE OF OIL; 6.3 MODULATION PROPERTIES OF OIL VCSELs; 6.4 RF LINK GAIN ENHANCEMENT OF OIL VCSELs; 6.5 NONLINEARITY AND DYNAMIC RANGE OF OIL VCSELs; 6.6 RELATIVE INTENSITY NOISE OF OIL VCSELs; 6.7 APPLICATIONS; 6.8 CONCLUSION; ACKNOWLEDGMENTS; REFERENCES; Chapter 7 Recent Developments in High-Speed Optical Modulators; 7.1 INTRODUCTION; 7.2 PRINCIPLES AND MECHANISMS OF EXTERNAL OPTICAL MODULATION; 7.3 HIGH-SPEED MODULATION; 7.4 MODULATORS BASED ON PHASE CHANGES AND INTERFERENCE
  • 7.5 INTENSITY MODULATORS BASED ON ABSORPTION CHANGES7.6 TRAVELING-WAVE ELECTROABSORPTION MODULATORS (EAMs); 7.7 NOVEL TYPES OF MODULATORS; 7.8 SUMMARY AND FUTURE PROSPECTS; ACKNOWLEDGMENTS; APPENDIX; REFERENCES; Chapter 8 Advances in Photodetectors; 8.1 WAVEGUIDE PHOTODIODES; 8.2 BALANCED RECEIVERS; 8.3 HIGH-POWER PHOTODETECTORS; 8.4 AVALANCHE PHOTODIODES; 8.5 CONCLUSIONS; REFERENCES; Chapter 9 Planar Lightwave Circuits in Fiber-Optic Communications; 9.1 INTRODUCTION; 9.2 BASIC WAVEGUIDE THEORY AND MATERIALS; 9.3 PASSIVE OPTICAL FILTERING, DEMODULATING, AND DEMULTIPLEXING DEVICES
  • 9.4 INTER-SIGNAL CONTROL DEVICES

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