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Essentials of photonics:

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1. Verfasser:	Rogers, Alan J. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, Fla. [u.a.] CRC Press 2009
Ausgabe:	2. ed.
Schlagworte:	Dispositifs optoélectroniques Optoélectronique Photonique Optoelectronic devices Optoelectronics Photonics Optik Optoelektronik
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	1. Aufl. u.d.T.: Rogers, Alan: Essentials of optoelectronics
Beschreibung:	469 S. graph. Darst.
ISBN:	9780849338366

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Datensatz im Suchindex

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adam_text	Contents Preface ......................................................................................................................xi The Author ............................................................................................................xiii Chapter 1 Photons and Electrons .............................................................................................1 1.1 Introduction ..................................................................................................1 1.2 Historical Sketch ..........................................................................................1 1.3 The Wave Nature of Light ...........................................................................3 1.4 Polarization ..................................................................................................7 1.5 The Electromagnetic Spectrum ...................................................................9 1.6 Emission and Absorption Processes ..........................................................10 1.7 Photon Statistics .........................................................................................12 1.8 The Behaviour of Electrons .......................................................................14 1.9 Lasers .........................................................................................................22 1.10 Summary ....................................................................................................22 Problems ..............................................................................................................23 References ...........................................................................................................23 Further Reading ..................................................................................................23 Chapter 2 Wave Properties of Light .......................................................................................25 2.1 Introduction ................................................................................................25 2.2 The Electromagnetic Spectrum .................................................................25 2.3 Wave Representation ..................................................................................25 2.4 Electromagnetic Waves ..............................................................................29 2.4.1 Velocity and Refractive Index .........................................................29 2.4.2 Energy, Power, and Intensity ...........................................................31 2.4.3 Optical Polarisation .........................................................................33 2.5 Reflection and Refraction ..........................................................................34 2.6 Total Internal Reflection ............................................................................43 2.7 Interference of Light ..................................................................................47 2.8 Light Waveguiding .....................................................................................48 2.9 Interferometers ...........................................................................................51 2.10 Diffraction ..................................................................................................58 2.11 Gaussian Beams and Stable Optical Resonators .......................................64 2.12 Conclusion ..................................................................................................66 Problems ..............................................................................................................66 References ...........................................................................................................67 Further Reading .................................................................................................68 Chapter 3 Polarization Optics ................................................................................................69 3.1 Introduction ................................................................................................69 3.2 The Polarization Ellipse .............................................................................69 3.3 Crystal Optics ............................................................................................72 3.4 Retarding Waveplates ................................................................................77 3.5 A Variable Waveplate: The Soleil-Babinet Compensator .............................80 3.6 Polarizing Prisms .......................................................................................81 3.7 Linear Birefringence ..................................................................................82 3.8 Circular Birefringence ...............................................................................82 3.9 Elliptical Birefringence ..............................................................................83 3.10 Practical Polarization Effects ....................................................................85 3.10.1 The Electro-Optic Effect ...............................................................87 3.10.2 The Magneto-Optic Effect .............................................................87 3.10.3 The Electrogyration Effect ............................................................91 3.11 Polarization Analysis .................................................................................91 3.12 The Form of the Jones Matrices ................................................................97 3.12.1 Linear Birefringence Matrix .........................................................97 3.12.2 Circular Birefringence Matrix .......................................................98 3.12.3 Elliptical Birefringence Matrix .....................................................99 3.12.4 The Essence of the Jones Calculus ................................................99 3.12.5 The Retarder/Rotator Pair ...........................................................104 3.13 Conclusions ..............................................................................................106 Problems ............................................................................................................106 References .........................................................................................................107 Further Reading ................................................................................................108 Chapter 4 Light and Matter: Emission, Propagation, and Absorption Processes ...........109 4.1 Introduction ..............................................................................................109 4.2 Classical Theory of Light Propagation in Uniform Dielectric Media .....109 4.3 Optical Dispersion ...................................................................................118 4.4 Emission and Absorption of Light ...........................................................121 4.4.1 The Elementary Processes ............................................................121 4.4.2 Elements of Laser Action ..............................................................122 4.4.3 Luminescence ................................................................................126 4.4.4 Photodetection ...............................................................................128 4.4.5 Photo-Emission ..............................................................................129 4.5 Conclusions ..............................................................................................130 Problems ............................................................................................................131 References .........................................................................................................132 Further Reading ................................................................................................132 Chapter 5 Optical Coherence and Correlation ...................................................................133 5.1 Introduction ..............................................................................................133 5.2 Measure of Coherence .............................................................................135 5.3 Wiener-Khinchin Theorem ......................................................................140 5.4 Dual-Beam Interference ...........................................................................141 5.5 Practical Examples ...................................................................................145 5.5.1 Michelson s Stellar Interferometer ................................................145 5.5.2 The Mach-Zehnder Interferometer ................................................145 5.5.3 The Optical-Fibre Gyroscope ........................................................146 5.5.4 Birefringence Depolarization of Polarized Light ..........................147 5.5.5 Coherence Properties of Lasers .....................................................148 5.6 Conclusion ................................................................................................149 Problems ............................................................................................................150 References .........................................................................................................150 Further Reading ................................................................................................150 Chapter 6 Some Essential Physics of Radiation and Solids ...............................................151 6.1 Introduction ..............................................................................................151 6.2 Radiation ..................................................................................................151 6.2.1 Black-Body Radiation ....................................................................151 6.2.2 The Quantum Result ......................................................................156 6.2.3 Black-Body Sources ....................................................................158 6.2.4 The Theory of Laser Action ..........................................................158 6.2.4.1 The Rate Equations and the Gain Mechanism .................158 6.2.4.2 The Laser Structure ..........................................................164 6.2.4.3 Mode-Locking ..................................................................167 6.2.4.4 Q-Switching .....................................................................169 6.3 Electrons in Solids ...................................................................................171 6.3.1 Elements of the Band Theory of Solids .........................................172 6.3.2 Metals, Insulation, and Semiconductors .......................................178 6.3.3 Brillouin Zones ..............................................................................180 6.3.4 Electron Energy Distribution in Semiconductors ..........................184 6.3.5 Extrinsic Semiconductors ..............................................................188 6.3.6 Binary and Ternary Semiconductors .............................................191 6.4 Conclusion ................................................................................................193 Problems ............................................................................................................193 References .........................................................................................................194 Further Reading ................................................................................................194 Chapter 7 Optical Sources, Modulators, and Detectors ....................................................195 7.1 Introduction ..............................................................................................195 7.2 Optical Sources ........................................................................................195 7.2.1 Laser Sources ................................................................................196 7.2.1.1 Introduction ......................................................................196 7.2.1.2 The Argon Laser: A Four-Level System ..........................196 7.2.1.3 The Dye Laser ..................................................................197 7.2.1.4 The Nd-YAG Laser: A Solid-State System ......................199 7.2.1.5 Other Types of Laser ........................................................201 7.2.2 Semiconductor Sources .................................................................201 7.2.2.1 The p -п Junction ...............................................................201 7.2.2.2 The Light-Emitting Diode (LED) ....................................205 7.2.2.3 The Semiconductor Laser Diode (SLD) ...........................206 7.2.2.4 Special Types of SLD .......................................................211 7.3 Optical Modulators ..................................................................................212 7.3.1 The Electro-Optic Modulator ........................................................213 7.3.2 The Magneto-Optic Modulator .....................................................219 7.3.3 The Acousto-Optic Modulator ......................................................220 7.3.3.1 The Raman-Nath Regime .................................................221 7.3.3.2 The Bragg Regime ...........................................................226 7.4 Photodetectors ..........................................................................................231 7.4.1 Photoconductive Detectors ............................................................231 7.4.2 Photodiodes ...................................................................................234 7.4.2.1 Junction Photodiodes ........................................................234 7.4.2.2 Performance Parameters for Photodiodes ........................238 7.4.2.3 The PIN Photodiode .........................................................242 7.4.2.4 The Photomultiplier ..........................................................242 7.4.2.5 The Avalanche Photodiode (APD) ...................................244 7.4.3 Photon Counting ............................................................................245 7.5 Conclusions ..............................................................................................246 Problems ............................................................................................................247 References .........................................................................................................249 Further Reading ................................................................................................249 Chapter 8 Optical Waveguides .............................................................................................251 8.1 Introduction ..............................................................................................251 8.2 The Planar Waveguide .............................................................................251 8.3 Integrated Optics ......................................................................................259 8.4 Cylindrical Waveguides ...........................................................................260 8.5 Optical Fibres ...........................................................................................264 8.6 Optical Fibres for Communications .........................................................267 8.6.1 Optical-Fibre Attenuation ..............................................................268 8.6.2 Optical-Fibre Dispersion ...............................................................269 8.6.2.1 Modal Dispersion .............................................................271 8.6.2.2 Material Dispersion ..........................................................274 8.6.2.3 Waveguide Dispersion ......................................................276 8.6.2.4 Polarization-Mode Dispersion (PMD) .............................278 8.6.2.5 Dispersion Compensation .................................................280 8.7 Polarization-Holding Waveguides ...........................................................281 8.8 Photonic Crystal Fibres ............................................................................286 8.8.1 Solid-Core PCF .............................................................................287 8.8.2 Hollow-Core PCF ..........................................................................288 8.9 Conclusions ..............................................................................................289 Problems ............................................................................................................289 References .........................................................................................................291 Further Reading ................................................................................................291 Chapter 9 Nonlinear Optics ..................................................................................................293 9.1 General Introduction ................................................................................293 9.2 Nonlinear Optics and Optical Fibres .......................................................294 9.3 The Formalism of Nonlinear Optics ........................................................296 9.4 Second-Harmonic Generation and Phase Matching ................................297 9.5 Optical Mixing .........................................................................................303 9.6 Intensity-Dependent Refractive Index .....................................................304 9.6.1 Optical Kerr Effect ........................................................................305 9.6.2 Self-Phase Modulation (SPM) .......................................................307 9.7 Four-Photon Mixing (FPM) .....................................................................309 9.8 Parametric and Inelastic Processes ..........................................................311 9.8.1 Raman Scattering ..........................................................................312 9.8.2 Stimulated Raman Scattering (SRS) .............................................315 9.8.3 The Raman Effect in Optical Fibres .............................................315 9.8.4 Practical Applications of the Raman Effect ..................................317 9.8.5 Brillouin Scattering .......................................................................319 9.9 Solitons.....................................................................................................325 9.10 Photosensitivity ........................................................................................328 9.10.1 Introduction .................................................................................328 9.10.2 The Fibre Bragg Grating (FBG) ..................................................331 9.11 Nonlinear Effects in Photonic Crystal Fibres (PCF) ...............................335 9.11.1 Raman and Brillouin Spectroscopy in Gases ..............................335 9.11.2 Generation of Harmonics ............................................................336 9.11.3 Х -Ray Generation ........................................................................336 9.12 Conclusions ..............................................................................................336 Problems ............................................................................................................337 References .........................................................................................................338 Further Reading ................................................................................................339 Chapter 10 Photonics in Action ..............................................................................................341 10.1 Introduction ............................................................................................341 10.2 Antireflective Coatings ..........................................................................341 10.3 Optical-Fibre Current Measurement ......................................................345 10.4 The Integrated Optical Spectrum Analyser ...........................................353 10.5 The Audio Compact Disc (CD) ..............................................................356 10.6 The Optical-Fibre Gyroscope ................................................................361 10.7 Holography .............................................................................................367 10.8 Optical-Time-Domain Reflectometry (OTDR) and Its Use in Distributed Optical-Fibre Raman Temperature Sensing (DTS) ............373 10.8.1 Optical-Time-Domain Reflectometry (OTDR) ..........................374 10.8.2 Distributed Optical-Fibre Raman Temperature Sensing ...........377 10.8.3 Distributed Optical-Fibre Measurement in General ..................381 10.9 Measurement of Very Short Optical Pulses: The Autocorrelator ..........382 10.10 Topics in Optical-Fibre Communications ..............................................387 10.10.1 The Optical-Fibre Amplifier ....................................................389 10.10.2 Wavelength-Division Multiplexing (WDM) ............................393 10.10.3 The Optical-Fibre Laser ...........................................................396 10.10.4 Optical Waveguide Couplers and Switches ..............................397 10.10.5 Coherent Systems .....................................................................401 10.10.6 More on Polarization Mode Dispersion (PMD) .......................408 10.10.6.1 Dependence on Optical Path Length ......................409 10.10.6.2 Distinction between Long and Short Regimes — Correlation Length ...............................412 10.11 Conclusions ............................................................................................413 Problems ............................................................................................................413 References .........................................................................................................416 Further Reading ................................................................................................416 Chapter 11 Epilogue: And What of the Future? ....................................................................419 Chapter 12 Appendices ..........................................................................................................423 Appendix I: Maxwell s Equations .....................................................................423 Appendix II: The Fourier Inversion Theorem ...................................................425 Appendix III: Symmetry of the Permittivity Tensor .........................................426 Appendix IV: The Polarization Ellipse .............................................................428 Appendix V: Radiation from an Oscillating Dipole ..........................................431 Appendix VI: The ô-Function ...........................................................................436 Appendix VII: The Fermi-Dirac Function ........................................................438 Appendix VIII: Second-Harmonic Generation .................................................441 Appendix IX: The Sampling Theorem ..............................................................444 Appendix X: The Semiconductor Equation ......................................................446 Appendix XI: The Formal Analysis of Polarization-Mode Dispersion (PMD) ... 450 References ..............................................................................................453 Chapter 13 Answers to Numerical Questions .......................................................................455 Index .....................................................................................................................457 Essentials of PHOTONICS Second Edition The importance of photonics in science and engineering is widely recognized and will continue to increase through the foreseeable future. In particular, applications in telecommunications, medicine, astronomy, industrial sensing, optical computing, and signal processing continue to become more diverse. Essentials of Photonics, Second Edition describes the entire range of photonic principles and techniques in detail. The book presents a new approach that concentrates on the physical principles, demonstrating their interdependence and developing them to explain more complex phenomena. It gives insight into the underlying physical processes in a way that is readable, easy to follow, and entirely self-contained. • Emphasizes the physical ideas, explaining them in a readily understandable manner • Includes a wide variety of system and device examples to illustrate practical applications • Provides a list of questions at the end of each chapter as well as the answers to their numerical components • Offers additional sections on optical amplifiers, tunable lasers, photonic crystal fibres, and gratings devices • Adds an expanded applications chapter that explores recent developments in the field Written by an author with many years of experience in teaching and research, this book includes a detailed treatment of lasers, waveguides (including optical fibres), modulators, detectors, nonlinear optics, and optical signal processing. This new edition is brought up to date with additional sections on photonic crystal fibres, distributed optical-fibre sensing, and the latest developments in optical-fibre communications.
adam_txt	Contents Preface .xi The Author .xiii Chapter 1 Photons and Electrons .1 1.1 Introduction .1 1.2 Historical Sketch .1 1.3 The Wave Nature of Light .3 1.4 Polarization .7 1.5 The Electromagnetic Spectrum .9 1.6 Emission and Absorption Processes .10 1.7 Photon Statistics .12 1.8 The Behaviour of Electrons .14 1.9 Lasers .22 1.10 Summary .22 Problems .23 References .23 Further Reading .23 Chapter 2 Wave Properties of Light .25 2.1 Introduction .25 2.2 The Electromagnetic Spectrum .25 2.3 Wave Representation .25 2.4 Electromagnetic Waves .29 2.4.1 Velocity and Refractive Index .29 2.4.2 Energy, Power, and Intensity .31 2.4.3 Optical Polarisation .33 2.5 Reflection and Refraction .34 2.6 Total Internal Reflection .43 2.7 Interference of Light .47 2.8 Light Waveguiding .48 2.9 Interferometers .51 2.10 Diffraction .58 2.11 Gaussian Beams and Stable Optical Resonators .64 2.12 Conclusion .66 Problems .66 References .67 Further Reading .68 Chapter 3 Polarization Optics .69 3.1 Introduction .69 3.2 The Polarization Ellipse .69 3.3 Crystal Optics .72 3.4 Retarding Waveplates .77 3.5 A Variable Waveplate: The Soleil-Babinet Compensator .80 3.6 Polarizing Prisms .81 3.7 Linear Birefringence .82 3.8 Circular Birefringence .82 3.9 Elliptical Birefringence .83 3.10 Practical Polarization Effects .85 3.10.1 The Electro-Optic Effect .87 3.10.2 The Magneto-Optic Effect .87 3.10.3 The Electrogyration Effect .91 3.11 Polarization Analysis .91 3.12 The Form of the Jones Matrices .97 3.12.1 Linear Birefringence Matrix .97 3.12.2 Circular Birefringence Matrix .98 3.12.3 Elliptical Birefringence Matrix .99 3.12.4 The Essence of the Jones Calculus .99 3.12.5 The Retarder/Rotator Pair .104 3.13 Conclusions .106 Problems .106 References .107 Further Reading .108 Chapter 4 Light and Matter: Emission, Propagation, and Absorption Processes .109 4.1 Introduction .109 4.2 Classical Theory of Light Propagation in Uniform Dielectric Media .109 4.3 Optical Dispersion .118 4.4 Emission and Absorption of Light .121 4.4.1 The Elementary Processes .121 4.4.2 Elements of Laser Action .122 4.4.3 Luminescence .126 4.4.4 Photodetection .128 4.4.5 Photo-Emission .129 4.5 Conclusions .130 Problems .131 References .132 Further Reading .132 Chapter 5 Optical Coherence and Correlation .133 5.1 Introduction .133 5.2 Measure of Coherence .135 5.3 Wiener-Khinchin Theorem .140 5.4 Dual-Beam Interference .141 5.5 Practical Examples .145 5.5.1 Michelson's Stellar Interferometer .145 5.5.2 The Mach-Zehnder Interferometer .145 5.5.3 The Optical-Fibre Gyroscope .146 5.5.4 Birefringence Depolarization of Polarized Light .147 5.5.5 Coherence Properties of Lasers .148 5.6 Conclusion .149 Problems .150 References .150 Further Reading .150 Chapter 6 Some Essential Physics of Radiation and Solids .151 6.1 Introduction .151 6.2 Radiation .151 6.2.1 Black-Body Radiation .151 6.2.2 The Quantum Result .156 6.2.3 'Black-Body' Sources .158 6.2.4 The Theory of Laser Action .158 6.2.4.1 The Rate Equations and the Gain Mechanism .158 6.2.4.2 The Laser Structure .164 6.2.4.3 Mode-Locking .167 6.2.4.4 Q-Switching .169 6.3 Electrons in Solids .171 6.3.1 Elements of the Band Theory of Solids .172 6.3.2 Metals, Insulation, and Semiconductors .178 6.3.3 Brillouin Zones .180 6.3.4 Electron Energy Distribution in Semiconductors .184 6.3.5 Extrinsic Semiconductors .188 6.3.6 Binary and Ternary Semiconductors .191 6.4 Conclusion .193 Problems .193 References .194 Further Reading .194 Chapter 7 Optical Sources, Modulators, and Detectors .195 7.1 Introduction .195 7.2 Optical Sources .195 7.2.1 Laser Sources .196 7.2.1.1 Introduction .196 7.2.1.2 The Argon Laser: A Four-Level System .196 7.2.1.3 The Dye Laser .197 7.2.1.4 The Nd-YAG Laser: A Solid-State System .199 7.2.1.5 Other Types of Laser .201 7.2.2 Semiconductor Sources .201 7.2.2.1 The p -п Junction .201 7.2.2.2 The Light-Emitting Diode (LED) .205 7.2.2.3 The Semiconductor Laser Diode (SLD) .206 7.2.2.4 Special Types of SLD .211 7.3 Optical Modulators .212 7.3.1 The Electro-Optic Modulator .213 7.3.2 The Magneto-Optic Modulator .219 7.3.3 The Acousto-Optic Modulator .220 7.3.3.1 The Raman-Nath Regime .221 7.3.3.2 The Bragg Regime .226 7.4 Photodetectors .231 7.4.1 Photoconductive Detectors .231 7.4.2 Photodiodes .234 7.4.2.1 Junction Photodiodes .234 7.4.2.2 Performance Parameters for Photodiodes .238 7.4.2.3 The PIN Photodiode .242 7.4.2.4 The Photomultiplier .242 7.4.2.5 The Avalanche Photodiode (APD) .244 7.4.3 Photon Counting .245 7.5 Conclusions .246 Problems .247 References .249 Further Reading .249 Chapter 8 Optical Waveguides .251 8.1 Introduction .251 8.2 The Planar Waveguide .251 8.3 Integrated Optics .259 8.4 Cylindrical Waveguides .260 8.5 Optical Fibres .264 8.6 Optical Fibres for Communications .267 8.6.1 Optical-Fibre Attenuation .268 8.6.2 Optical-Fibre Dispersion .269 8.6.2.1 Modal Dispersion .271 8.6.2.2 Material Dispersion .274 8.6.2.3 Waveguide Dispersion .276 8.6.2.4 Polarization-Mode Dispersion (PMD) .278 8.6.2.5 Dispersion Compensation .280 8.7 Polarization-Holding Waveguides .281 8.8 Photonic Crystal Fibres .286 8.8.1 Solid-Core PCF .287 8.8.2 Hollow-Core PCF .288 8.9 Conclusions .289 Problems .289 References .291 Further Reading .291 Chapter 9 Nonlinear Optics .293 9.1 General Introduction .293 9.2 Nonlinear Optics and Optical Fibres .294 9.3 The Formalism of Nonlinear Optics .296 9.4 Second-Harmonic Generation and Phase Matching .297 9.5 Optical Mixing .303 9.6 Intensity-Dependent Refractive Index .304 9.6.1 Optical Kerr Effect .305 9.6.2 Self-Phase Modulation (SPM) .307 9.7 Four-Photon Mixing (FPM) .309 9.8 Parametric and Inelastic Processes .311 9.8.1 Raman Scattering .312 9.8.2 Stimulated Raman Scattering (SRS) .315 9.8.3 The Raman Effect in Optical Fibres .315 9.8.4 Practical Applications of the Raman Effect .317 9.8.5 Brillouin Scattering .319 9.9 Solitons.325 9.10 Photosensitivity .328 9.10.1 Introduction .328 9.10.2 The Fibre Bragg Grating (FBG) .331 9.11 Nonlinear Effects in Photonic Crystal Fibres (PCF) .335 9.11.1 Raman and Brillouin Spectroscopy in Gases .335 9.11.2 Generation of Harmonics .336 9.11.3 Х -Ray Generation .336 9.12 Conclusions .336 Problems .337 References .338 Further Reading .339 Chapter 10 Photonics in Action .341 10.1 Introduction .341 10.2 Antireflective Coatings .341 10.3 Optical-Fibre Current Measurement .345 10.4 The Integrated Optical Spectrum Analyser .353 10.5 The Audio Compact Disc (CD) .356 10.6 The Optical-Fibre Gyroscope .361 10.7 Holography .367 10.8 Optical-Time-Domain Reflectometry (OTDR) and Its Use in Distributed Optical-Fibre Raman Temperature Sensing (DTS) .373 10.8.1 Optical-Time-Domain Reflectometry (OTDR) .374 10.8.2 Distributed Optical-Fibre Raman Temperature Sensing .377 10.8.3 Distributed Optical-Fibre Measurement in General .381 10.9 Measurement of Very Short Optical Pulses: The Autocorrelator .382 10.10 Topics in Optical-Fibre Communications .387 10.10.1 The Optical-Fibre Amplifier .389 10.10.2 Wavelength-Division Multiplexing (WDM) .393 10.10.3 The Optical-Fibre Laser .396 10.10.4 Optical Waveguide Couplers and Switches .397 10.10.5 Coherent Systems .401 10.10.6 More on Polarization Mode Dispersion (PMD) .408 10.10.6.1 Dependence on Optical Path Length .409 10.10.6.2 Distinction between 'Long' and 'Short' Regimes — Correlation Length .412 10.11 Conclusions .413 Problems .413 References .416 Further Reading .416 Chapter 11 Epilogue: And What of the Future? .419 Chapter 12 Appendices .423 Appendix I: Maxwell's Equations .423 Appendix II: The Fourier Inversion Theorem .425 Appendix III: Symmetry of the Permittivity Tensor .426 Appendix IV: The Polarization Ellipse .428 Appendix V: Radiation from an Oscillating Dipole .431 Appendix VI: The ô-Function .436 Appendix VII: The Fermi-Dirac Function .438 Appendix VIII: Second-Harmonic Generation .441 Appendix IX: The Sampling Theorem .444 Appendix X: The Semiconductor Equation .446 Appendix XI: The Formal Analysis of Polarization-Mode Dispersion (PMD) . 450 References .453 Chapter 13 Answers to Numerical Questions .455 Index .457 Essentials of PHOTONICS Second Edition The importance of photonics in science and engineering is widely recognized and will continue to increase through the foreseeable future. In particular, applications in telecommunications, medicine, astronomy, industrial sensing, optical computing, and signal processing continue to become more diverse. Essentials of Photonics, Second Edition describes the entire range of photonic principles and techniques in detail. The book presents a new approach that concentrates on the physical principles, demonstrating their interdependence and developing them to explain more complex phenomena. It gives insight into the underlying physical processes in a way that is readable, easy to follow, and entirely self-contained. • Emphasizes the physical ideas, explaining them in a readily understandable manner • Includes a wide variety of system and device examples to illustrate practical applications • Provides a list of questions at the end of each chapter as well as the answers to their numerical components • Offers additional sections on optical amplifiers, tunable lasers, photonic crystal fibres, and gratings devices • Adds an expanded applications chapter that explores recent developments in the field Written by an author with many years of experience in teaching and research, this book includes a detailed treatment of lasers, waveguides (including optical fibres), modulators, detectors, nonlinear optics, and optical signal processing. This new edition is brought up to date with additional sections on photonic crystal fibres, distributed optical-fibre sensing, and the latest developments in optical-fibre communications.
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discipline_str_mv	Physik Elektrotechnik Elektrotechnik / Elektronik / Nachrichtentechnik
edition	2. ed.
format	Book
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indexdate	2024-07-09T21:09:21Z
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isbn	9780849338366
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spelling	Rogers, Alan J. Verfasser (DE-588)137252412 aut Essentials of photonics Alan Rogers 2. ed. Boca Raton, Fla. [u.a.] CRC Press 2009 469 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier 1. Aufl. u.d.T.: Rogers, Alan: Essentials of optoelectronics Dispositifs optoélectroniques ram Optoélectronique ram Photonique ram Optoelectronic devices Optoelectronics Photonics Optik (DE-588)4043650-0 gnd rswk-swf Optoelektronik (DE-588)4043687-1 gnd rswk-swf Optik (DE-588)4043650-0 s DE-604 Optoelektronik (DE-588)4043687-1 s Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016233340&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016233340&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Rogers, Alan J. Essentials of photonics Dispositifs optoélectroniques ram Optoélectronique ram Photonique ram Optoelectronic devices Optoelectronics Photonics Optik (DE-588)4043650-0 gnd Optoelektronik (DE-588)4043687-1 gnd
subject_GND	(DE-588)4043650-0 (DE-588)4043687-1
title	Essentials of photonics
title_auth	Essentials of photonics
title_exact_search	Essentials of photonics
title_exact_search_txtP	Essentials of photonics
title_full	Essentials of photonics Alan Rogers
title_fullStr	Essentials of photonics Alan Rogers
title_full_unstemmed	Essentials of photonics Alan Rogers
title_short	Essentials of photonics
title_sort	essentials of photonics
topic	Dispositifs optoélectroniques ram Optoélectronique ram Photonique ram Optoelectronic devices Optoelectronics Photonics Optik (DE-588)4043650-0 gnd Optoelektronik (DE-588)4043687-1 gnd
topic_facet	Dispositifs optoélectroniques Optoélectronique Photonique Optoelectronic devices Optoelectronics Photonics Optik Optoelektronik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016233340&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016233340&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT rogersalanj essentialsofphotonics

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