Description: Fundamentals of Microwave Photonics by V.J. Urick, Keith J. Williams, Jason D. McKinney A comprehensive resource to designing and constructing analog photonic links capable of high RF performance Fundamentals of Microwave Photonics provides a comprehensive description of analog optical links from basic principles to applications. The book is organized into four parts. FORMAT Hardcover LANGUAGE English CONDITION Brand New Publisher Description A comprehensive resource to designing and constructing analog photonic links capable of high RF performance Fundamentals of Microwave Photonics provides a comprehensive description of analog optical links from basic principles to applications. The book is organized into four parts. The first begins with a historical perspective of microwave photonics, listing the advantages of fiber optic links and delineating analog vs. digital links. The second section covers basic principles associated with microwave photonics in both the RF and optical domains. The third focuses on analog modulation formats—starting with a concept, deriving the RF performance metrics from basic physical models, and then analyzing issues specific to each format. The final part examines applications of microwave photonics, including analog receive-mode systems, high-power photodiodes applications, radio astronomy, and arbitrary waveform generation. Covers fundamental concepts including basic treatments of noise, sources of distortion and propagation effectsProvides design equations in easy-to-use forms as quick referenceExamines analog photonic link architectures along with their application to RF systems A thorough treatment of microwave photonics, Fundamentals of Microwave Photonics will be an essential resource in the laboratory, field, or during design meetings. The authors have more than 55 years of combined professional experience in microwave photonics and have published more than 250 associated works. Back Cover A comprehensive resource to designing and constructing analog photonic links capable of high RF performance Fundamentals of Microwave Photonics provides a comprehensive description of analog optical links from basic principles to applications. The book is organized into four parts. The first begins with a historical perspective of microwave photonics, listing the advantages of fiber optic links and delineating analog vs. digital links. The second section covers basic principles associated with microwave photonics in both the RF and optical domains. The third focuses on analog modulation formats--starting with a concept, deriving the RF performance metrics from basic physical models, and then analyzing issues specific to each format. The final part examines applications of microwave photonics, including analog receive-mode systems, high-power photodiodes applications, radio astronomy, and arbitrary waveform generation. Covers fundamental concepts including basic treatments of noise, sources of distortion and propagation effects Provides design equations in easy-to-use forms as quick reference Examines analog photonic link architectures along with their application to RF systems A thorough treatment of microwave photonics, Fundamentals of Microwave Photonics will be an essential resource in the laboratory, field, or during design meetings. The authors have more than 55 years of combined professional experience in microwave photonics and have published more than 250 associated works. Vincent J. Urick Jr., PhD, joined the U.S. Naval Research Laboratory (NRL) in 2001, where he heads the Applied RF Photonics Section. Jason D. McKinney, PhD, has been with NRL as a senior electrical engineer in the Applied Microwave Photonics Section since 2006. Prior to joining NRL, he conducted research in the field on staff at Purdue University starting in 2001. Keith J. Williams, PhD, started at NRL in 1987, where he heads the Photonics Technology Branch. Flap A comprehensive resource to designing and constructing analog photonic links capable of high RF performance Fundamentals of Microwave Photonics provides a comprehensive description of analog optical links from basic principles to applications. The book is organized into four parts. The first begins with a historical perspective of microwave photonics, listing the advantages of fiber optic links and delineating analog vs. digital links. The second section covers basic principles associated with microwave photonics in both the RF and optical domains. The third focuses on analog modulation formats--starting with a concept, deriving the RF performance metrics from basic physical models, and then analyzing issues specific to each format. The final part examines applications of microwave photonics, including analog receive-mode systems, high-power photodiodes applications, radio astronomy, and arbitrary waveform generation. Covers fundamental concepts including basic treatments of noise, sources of distortion and propagation effects Provides design equations in easy-to-use forms as quick reference Examines analog photonic link architectures along with their application to RF systems A thorough treatment of microwave photonics, Fundamentals of Microwave Photonics will be an essential resource in the laboratory, field, or during design meetings. The authors have more than 55 years of combined professional experience in microwave photonics and have published more than 250 associated works. Vincent J. Urick Jr., PhD, joined the U.S. Naval Research Laboratory (NRL) in 2001, where he heads the Applied RF Photonics Section. Jason D. McKinney, PhD, has been with NRL as a senior electrical engineer in the Applied Microwave Photonics Section since 2006. Prior to joining NRL, he conducted research in the field on staff at Purdue University starting in 2001. Keith J. Williams, PhD, started at NRL in 1987, where he heads the Photonics Technology Branch. Author Biography The authors have more than 55 years of combined professional experience in microwave photonics and have published more than 250 associated works.Vincent J. Urick Jr., PhD, joined the U.S. Naval Research Laboratory (NRL) in 2001, where he heads the Applied RF Photonics Section.Jason D. McKinney, PhD, has been with NRL as a senior electrical engineer in the Applied Microwave Photonics Section since 2006. Prior to joining NRL, he conducted research in the field on staff at Purdue University starting in 2001.Keith J. Williams, PhD, started at NRL in 1987, where he heads the Photonics Technology Branch. Table of Contents Preface xi Acknowledgments xiii 1 Introduction 1 1.1 Enabling Technological Advances and Benefits of Fiber Optic Links 6 1.2 Analog Versus Digital Fiber Optic Links 13 1.3 Basic Fiber Optic Components 18 1.4 Analog Links Within RF Systems 27 References 28 2 Analog Performance Metrics 33 2.1 The Scattering Matrix 34 2.2 Noise Figure 36 2.3 Dynamic Range 39 2.3.1 Compression Dynamic Range 39 2.3.2 Spurious-Free Dynamic Range 43 2.4 Cascade Analysis 52 References 54 3 Sources of Noise in Fiber Optic Links 57 3.1 Basic Concepts 58 3.2 Thermal Noise 62 3.3 Shot Noise 69 3.4 Lasers 74 3.5 Optical Amplifiers 93 3.5.1 Erbium-Doped Fiber Amplifiers 94 3.5.2 Raman and Brillouin Fiber Amplifiers 108 3.5.3 Semiconductor Optical Amplifiers 112 3.6 Photodetection 113 References 117 4 Distortion in Fiber Optic Links 124 4.1 Introduction 124 4.2 Distortion in Electrical-to-Optical Conversion 130 4.3 Optical Amplifier Distortion 134 4.4 Photodetector Distortion 138 4.4.1 Photodetector Distortion Measurement Systems 141 4.4.2 Photodetector Nonlinear Mechanisms 144 References 161 5 Propagation Effects 166 5.1 Introduction 166 5.2 Double Rayleigh Scattering 168 5.3 RF Phase in Fiber Optic Links 170 5.4 Chromatic Dispersion 173 5.5 Stimulated Brillouin Scattering 184 5.6 Stimulated Raman Scattering 190 5.7 Cross-Phase Modulation 193 5.8 Four-Wave Mixing 198 5.9 Polarization Effects 200 References 205 6 External Intensity Modulation with Direct Detection 212 6.1 Concept and Link Architectures 213 6.2 Signal Transfer and Gain 216 6.3 Noise and Performance Metrics 233 6.3.1 General Equations 234 6.3.2 Shot-Noise-Limited Equations 242 6.3.3 RIN-Limited Equations 247 6.3.4 Trade Space Analysis 250 6.4 Photodetector Issues and Solutions 251 6.5 Linearization Techniques 260 6.6 Propagation Effects 264 References 270 7 External Phase Modulation with Interferometric Detection 273 7.1 Introduction 273 7.2 Signal Transfer and Gain 275 7.3 Noise and Performance Metrics 287 7.4 Linearization Techniques 295 7.5 Propagation Effects 299 7.6 Other Techniques for Optical Phase Demodulation 304 References 308 8 Other Analog Optical Modulation Methods 312 8.1 Direct Laser Modulation 313 8.1.1 Direct Intensity Modulation 314 8.1.2 Direct Frequency Modulation 319 8.2 Suppressed Carrier Modulation with a Low Biased MZM 321 8.3 Single-Sideband Modulation 328 8.4 Sampled Analog Optical Links 330 8.4.1 RF Downconversion Via Sampled Analog Optical Links 333 8.4.2 Mitigation of Stimulated Brillouin Scattering with Sampled Links 336 8.5 Polarization Modulation 340 References 344 9 High Current Photodetectors 351 9.1 Photodetector Compression 352 9.2 Effects Due to Finite Series Resistance 355 9.3 Thermal Limitations 359 9.4 Space-Charge Effects 365 9.5 Photodetector Power Conversion Efficiency 370 9.6 State of the Art for Power Photodetectors 376 References 378 10 Applications and Trends 383 10.1 Point-to-Point Links 384 10.2 Analog Fiber Optic Delay Lines 393 10.3 Photonic-Based RF Signal Processing 398 10.3.1 Wideband Channelization 399 10.3.2 Instantaneous Frequency Measurement 401 10.3.3 Downconversion 404 10.3.4 Phased-Array Beamforming 405 10.4 Photonic Methods for RF Signal Generation 407 10.5 Millimeter-Wave Photonics 415 10.6 Integrated Microwave Photonics 419 References 427 Appendix I Units and Physical Constants 446 Appendix II Electromagnetic Radiation 450 Appendix III Power, Voltage and Current for a Sinusoid 453 Appendix IV Trigonometric Functions 455 Appendix V Fourier Transforms 458 Appendix VI Bessel Functions 460 Index 463 Long Description A comprehensive resource to designing and constructing analog photonic links capable of high RF performance Fundamentals of Microwave Photonics provides a comprehensive description of analog optical links from basic principles to applications. The book is organized into four parts. The first begins with a historical perspective of microwave photonics, listing the advantages of fiber optic links and delineating analog vs. digital links. The second section covers basic principles associated with microwave photonics in both the RF and optical domains. The third focuses on analog modulation formats starting with a concept, deriving the RF performance metrics from basic physical models, and then analyzing issues specific to each format. The final part examines applications of microwave photonics, including analog receive-mode systems, high-power photodiodes applications, radio astronomy, and arbitrary waveform generation. Covers fundamental concepts including basic treatments of noise, sources of distortion and propagation effects Provides design equations in easy-to-use forms as quick reference Examines analog photonic link architectures along with their application to RF systems A thorough treatment of microwave photonics, Fundamentals of Microwave Photonics will be an essential resource in the laboratory, field, or during design meetings. The authors have more than 55 years of combined professional experience in microwave photonics and have published more than 250 associated works. Vincent J. Urick Jr., PhD, joined the U.S. Naval Research Laboratory (NRL) in 2001, where he heads the Applied RF Photonics Section. Jason D. McKinney, PhD, has been with NRL as a senior electrical engineer in the Applied Microwave Photonics Section since 2006. Prior to joining NRL, he conducted research in the field on staff at Purdue University starting in 2001. Keith J. Williams, PhD, started at NRL in 1987, where he heads the Photonics Technology Branch. Details ISBN1118293207 Series Wiley Series in Microwave and Optical Engineering ISBN-10 1118293207 ISBN-13 9781118293201 Format Hardcover Year 2015 Edition 1st Short Title FUNDAMENTALS OF MICROWAVE PHOT Language English Media Book Place of Publication New York Country of Publication United States Illustrations Yes Author Jason D. McKinney UK Release Date 2015-03-27 AU Release Date 2015-02-20 NZ Release Date 2015-02-20 Pages 496 Publisher John Wiley & Sons Inc Publication Date 2015-03-27 Imprint John Wiley & Sons Inc DEWEY 621.384 Audience Professional & Vocational US Release Date 2015-03-27 We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! TheNile_Item_ID:136202081;
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ISBN-13: 9781118293201
Book Title: Fundamentals of Microwave Photonics
Number of Pages: 496 Pages
Language: English
Publication Name: Fundamentals of Microwave Photonics
Publisher: John Wiley & Sons Inc
Publication Year: 2015
Item Height: 241 mm
Item Weight: 924 g
Type: Textbook
Author: Keith J. Williams, V. J. Urick, Jason D. Mckinney
Subject Area: Electrical Engineering
Item Width: 171 mm
Format: Hardcover