The physical fundamentals of electro-optics:
This book offers a much-needed practical guide to characterizing difficulties met by designers of electro-optical current devices, such as lasers, laser diodes and photodiodes, and advanced optical devices, such as avalanche and erbium diodes, to overcome drawbacks associated with optical communicat...
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Newcastle upon Tyne, UK
Cambridge Scholars Publishing
2022
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| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Zusammenfassung: | This book offers a much-needed practical guide to characterizing difficulties met by designers of electro-optical current devices, such as lasers, laser diodes and photodiodes, and advanced optical devices, such as avalanche and erbium diodes, to overcome drawbacks associated with optical communication links, wireless (for LIDAR applications) and wired (for fiber-optical communication). All these drawbacks suffer from various types of noises inside each element of the devices under analysis and the corresponding fading phenomenon when various types of optical signals with information data tran |
| Beschreibung: | xxi, 263 Seiten Illustrationen, Diagramme 22 cm |
| ISBN: | 9781527584761 |
Internformat
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| 520 | 3 | |a This book offers a much-needed practical guide to characterizing difficulties met by designers of electro-optical current devices, such as lasers, laser diodes and photodiodes, and advanced optical devices, such as avalanche and erbium diodes, to overcome drawbacks associated with optical communication links, wireless (for LIDAR applications) and wired (for fiber-optical communication). All these drawbacks suffer from various types of noises inside each element of the devices under analysis and the corresponding fading phenomenon when various types of optical signals with information data tran | |
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Datensatz im Suchindex
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| adam_text | Contents Preface.............................................................................................................. ix List of Abbreviations.................................................................................... xiv Chapter 1........................................................................................................... 1 Fundamental Aspects of Electro-Optics 1.1 Spectrum of Optical Waves................................................................ 2 1.2. Fiber Optic Links................................................................................ 3 1.3. Main Elements and Devices in Electro-Optics................................ 4 1.4. Noise in Optical Emitters and Detectors........................................... 6 1.5. Presentation of Signals in Electro-Optics......................................... 6 1.6. Types of Modulation of Optical Signals........................................... 7 1.7. Wired (Fiber Optic) Fundamentals................................................... 9 Bibliography ............................................................................................. 10 Chapter 2......................................................................................................... 11 Electromagnetic Nature of Light 2.1. Optical Wave Electromagnetic Fundamentals................................11 2.2. Propagation of Optical Waves in Free Space.................................. 14 2.3. Propagation of Optical Waves through the Boundary of Two
Media................................................................................................... 16 2.3.1 Boundary conditions.................................................................. 16 2.3.2 Main formulations of reflection and refraction coefficients... 17 2.4. Total Intrinsic Reflection in Optics................................................. 20 2.5. Propagation of Optical Waves in Materials....................................24 Exercises................................................................................................... 27 Bibliography............................................................................................. 33 Chapter 3......................................................................................................... 34 Corpuscular Nature of Light 3.1. Elements of Quantum Theory.......................................................... 34 3.2. Structure of the Atom........................................................................ 39 3.2.1 Wave - Corpuscular Dualism.................................................. 39 3.2.2 Bohr’s Corpuscular Model of any Atom............................... 43 3.2.3 De Brogli’s Wave - Corpuscular Dualism Concept.............. 49
vi Contents 3.2.4 Structure of Crystal Materials................................................51 3.3. Semiconductor Fundamentals........................................................54 3.3.1 . Zonal Structure of Semiconductors................................... 55 3.3.2 Electrons and Holes................................................................ 56 3.3.3 Joint Energy-Momentum Domain of Semiconductors........ 58 3.3.4 P-type and N-type Semiconductors....................................... 61 3.3.5 P-N Junction in Equilibrium................................................... 62 Exercises............................................................................................... 65 Bibliography......................................................................................... 73 Chapter 4.....................................................................................................74 Basic Principles of Photonics and Laser Operation 4.1. Boltzmann Distribution.................................................................. 74 4.2. Fermi-Dirac Energy Distribution................................................... 75 4.3. Interaction of Photons with Atoms................................................ 77 4.3.1 Thermal Emission ֊ Spontaneous, Stimulated, and Absorption of Photons.................................................. 77 4.3.2 Thermal Equilibrium between Atoms and Photons............. 82 4.4. Electron and Hole Concentration in Semiconducting Materials.. 85 4.5. Law of Mass
Action....................................................................... 92 4.6. Generation and Recombination of Electrons and Holes in Thermal Equilibrium............................................................. 93 4.7. Photon Interactions with Semiconducting Materials..................... 98 4.7.1 Processes of Emission and Absorption of Light in Semiconductor Materials................................................. 98 4.8. Physical Principles of Laser Operation........................................102 Bibliography........................................................................................107 Chapter 5.................................................................................................. 109 Fundamentals of Light Emitters, Optical Diodes and Detectors 5.1. P-N Junction Operation Mode in Semiconductor Devices....... 109 5.2. Laser Diodes................................................................................ 117 5.2.1 Light-Emitted Diode (LED)............................................... 117 5.2.2 Laser Diode (LD)................................................................. 121 5.3. Photodiodes.................................................................................. 124 5.3.1 The p-n Photodiode.............................................................. 124 5.3.2 Thep-i-n Photodiode............................................................ 128 5.4. Multiplication of Photons - Avalanche Diodes.......................... 132 5.4.1 Multiplication of Photons..................................................... 132
5.4.2 . Avalanche Photodiodes................................................... 135 5.5. Operational Characteristics of Light Photodiodes...................... 141
The Physical Fundamentals of Electro-Optics vii Exercises............................................................................................. 144 Problems............................................................................................. 151 Bibliography.......................................................................................153 Chapter 6.................................................................................................. 154 Noise in Light Emitters and Diodes 6.1. Noise in Photodiodes and Light Emitters.................................... 154 6.2. Noise in Optical Receivers.......................................................... 162 Bibliography.......................................................................................165 Chapter 7.................................................................................................. 166 Optical Amplifiers 7.1. Principles of Optical Amplification............................................ 166 7.2. Amplification with Small Signal Gain........................................ 167 7.3. Pumping Mechanism in Optical Amplifiers............................... 169 7.4. Noise in Optical Amplifiers........................................................ 174 7.5. Erbium Doped Fiber Amplifier (EDFA)..................................... 180 7.5.1 . Structure and Principle of Operation of EDFA............. 180 7.5.2 Gain Characteristics of EDFA............................................. 182 7.5.3 Noise Characteristics of EDFA........................................... 183
Exercises............................................................................................. 184 Bibliography.......................................................................................189 Chapter 8.................................................................................................. 190 Types of Signals in Optics 8.1. Narrowband or Continuous Wave Optical Signals..................... 190 8.2. Wideband or Impulse Optical Signals......................................... 193 Bibliography...................................................................................... 195 Chapter 9.................................................................................................. 197 Modulation of Signals in Optics 9.1. Analog Modulation of Optical Signals....................................... 198 9.1.1 Analog Amplitude Modulation............................................ 198 9.1.2 Analog Frequency and Phase Modulation........................... 200 9.1.3 Spectrum and Bandwidth of FM or PM Signals..................203 9.1.4 Relations between SNR and Bandwidth of AM and FM Signals.............................................................................. 204 9.2. Digital Signal Modulation........................................................... 205 9.2.1 Types of Linear Digital Modulation Techniques................ 206 9.2.2 Nonlinear Digital Modulation............................................. 209 Exercises............................................................................................ 210
Bibliography...................................................................................... 212
viii Contents Chapter 10................................................................................................. 213 Optical Waves Propagation in Fiberoptic Structures 10.1. Types of Optical Fibers.............................................................. 213 10.2. Main Operational Parameters of Optical Fibers........................ 215 10.3. Propagation of Optical Rays in a 2-D Plane Dielectric Guiding Structure................................................................................... 216 10.4. Propagation of Optical Wave along the З-D Fiber Optic Structure....................................................................................222 10.5. Dispersion of Signals in Fiber Optic Links............................... 232 10.6. Attenuation and Scattering insideFiber Optic Structures.........240 Summary.............................................................................................. 241 Exercises.............................................................................................. 242 Bibliography........................................................................................ 258 Index.......................................................................................................... 259
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| adam_txt |
Contents Preface. ix List of Abbreviations. xiv Chapter 1. 1 Fundamental Aspects of Electro-Optics 1.1 Spectrum of Optical Waves. 2 1.2. Fiber Optic Links. 3 1.3. Main Elements and Devices in Electro-Optics. 4 1.4. Noise in Optical Emitters and Detectors. 6 1.5. Presentation of Signals in Electro-Optics. 6 1.6. Types of Modulation of Optical Signals. 7 1.7. Wired (Fiber Optic) Fundamentals. 9 Bibliography . 10 Chapter 2. 11 Electromagnetic Nature of Light 2.1. Optical Wave Electromagnetic Fundamentals.11 2.2. Propagation of Optical Waves in Free Space. 14 2.3. Propagation of Optical Waves through the Boundary of Two
Media. 16 2.3.1 Boundary conditions. 16 2.3.2 Main formulations of reflection and refraction coefficients. 17 2.4. Total Intrinsic Reflection in Optics. 20 2.5. Propagation of Optical Waves in Materials.24 Exercises. 27 Bibliography. 33 Chapter 3. 34 Corpuscular Nature of Light 3.1. Elements of Quantum Theory. 34 3.2. Structure of the Atom. 39 3.2.1 Wave - Corpuscular Dualism. 39 3.2.2 Bohr’s Corpuscular Model of any Atom. 43 3.2.3 De Brogli’s Wave - Corpuscular Dualism Concept. 49
vi Contents 3.2.4 Structure of Crystal Materials.51 3.3. Semiconductor Fundamentals.54 3.3.1 . Zonal Structure of Semiconductors. 55 3.3.2 Electrons and Holes. 56 3.3.3 Joint Energy-Momentum Domain of Semiconductors. 58 3.3.4 P-type and N-type Semiconductors. 61 3.3.5 P-N Junction in Equilibrium. 62 Exercises. 65 Bibliography. 73 Chapter 4.74 Basic Principles of Photonics and Laser Operation 4.1. Boltzmann Distribution. 74 4.2. Fermi-Dirac Energy Distribution. 75 4.3. Interaction of Photons with Atoms. 77 4.3.1 Thermal Emission ֊ Spontaneous, Stimulated, and Absorption of Photons. 77 4.3.2 Thermal Equilibrium between Atoms and Photons. 82 4.4. Electron and Hole Concentration in Semiconducting Materials. 85 4.5. Law of Mass
Action. 92 4.6. Generation and Recombination of Electrons and Holes in Thermal Equilibrium. 93 4.7. Photon Interactions with Semiconducting Materials. 98 4.7.1 Processes of Emission and Absorption of Light in Semiconductor Materials. 98 4.8. Physical Principles of Laser Operation.102 Bibliography.107 Chapter 5. 109 Fundamentals of Light Emitters, Optical Diodes and Detectors 5.1. P-N Junction Operation Mode in Semiconductor Devices. 109 5.2. Laser Diodes. 117 5.2.1 Light-Emitted Diode (LED). 117 5.2.2 Laser Diode (LD). 121 5.3. Photodiodes. 124 5.3.1 The p-n Photodiode. 124 5.3.2 Thep-i-n Photodiode. 128 5.4. Multiplication of Photons - Avalanche Diodes. 132 5.4.1 Multiplication of Photons. 132
5.4.2 . Avalanche Photodiodes. 135 5.5. Operational Characteristics of Light Photodiodes. 141
The Physical Fundamentals of Electro-Optics vii Exercises. 144 Problems. 151 Bibliography.153 Chapter 6. 154 Noise in Light Emitters and Diodes 6.1. Noise in Photodiodes and Light Emitters. 154 6.2. Noise in Optical Receivers. 162 Bibliography.165 Chapter 7. 166 Optical Amplifiers 7.1. Principles of Optical Amplification. 166 7.2. Amplification with Small Signal Gain. 167 7.3. Pumping Mechanism in Optical Amplifiers. 169 7.4. Noise in Optical Amplifiers. 174 7.5. Erbium Doped Fiber Amplifier (EDFA). 180 7.5.1 . Structure and Principle of Operation of EDFA. 180 7.5.2 Gain Characteristics of EDFA. 182 7.5.3 Noise Characteristics of EDFA. 183
Exercises. 184 Bibliography.189 Chapter 8. 190 Types of Signals in Optics 8.1. Narrowband or Continuous Wave Optical Signals. 190 8.2. Wideband or Impulse Optical Signals. 193 Bibliography. 195 Chapter 9. 197 Modulation of Signals in Optics 9.1. Analog Modulation of Optical Signals. 198 9.1.1 Analog Amplitude Modulation. 198 9.1.2 Analog Frequency and Phase Modulation. 200 9.1.3 Spectrum and Bandwidth of FM or PM Signals.203 9.1.4 Relations between SNR and Bandwidth of AM and FM Signals. 204 9.2. Digital Signal Modulation. 205 9.2.1 Types of Linear Digital Modulation Techniques. 206 9.2.2 Nonlinear Digital Modulation. 209 Exercises. 210
Bibliography. 212
viii Contents Chapter 10. 213 Optical Waves Propagation in Fiberoptic Structures 10.1. Types of Optical Fibers. 213 10.2. Main Operational Parameters of Optical Fibers. 215 10.3. Propagation of Optical Rays in a 2-D Plane Dielectric Guiding Structure. 216 10.4. Propagation of Optical Wave along the З-D Fiber Optic Structure.222 10.5. Dispersion of Signals in Fiber Optic Links. 232 10.6. Attenuation and Scattering insideFiber Optic Structures.240 Summary. 241 Exercises. 242 Bibliography. 258 Index. 259 |
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| spelling | Juwiler, Irit 1971- Verfasser (DE-588)1282893483 aut The physical fundamentals of electro-optics by Irit Juwiler and Nathan Blaunstein Newcastle upon Tyne, UK Cambridge Scholars Publishing 2022 xxi, 263 Seiten Illustrationen, Diagramme 22 cm txt rdacontent n rdamedia nc rdacarrier This book offers a much-needed practical guide to characterizing difficulties met by designers of electro-optical current devices, such as lasers, laser diodes and photodiodes, and advanced optical devices, such as avalanche and erbium diodes, to overcome drawbacks associated with optical communication links, wireless (for LIDAR applications) and wired (for fiber-optical communication). All these drawbacks suffer from various types of noises inside each element of the devices under analysis and the corresponding fading phenomenon when various types of optical signals with information data tran Elektrooptisches Bauelement (DE-588)4199294-5 gnd rswk-swf Elektrooptik (DE-588)4137456-3 gnd rswk-swf Electrooptics Electrooptical devices Elektrooptik (DE-588)4137456-3 s DE-604 Elektrooptisches Bauelement (DE-588)4199294-5 s Blaunstein, Nathan Verfasser (DE-588)1222618273 aut Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=034077547&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
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| title | The physical fundamentals of electro-optics |
| title_auth | The physical fundamentals of electro-optics |
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| title_full_unstemmed | The physical fundamentals of electro-optics by Irit Juwiler and Nathan Blaunstein |
| title_short | The physical fundamentals of electro-optics |
| title_sort | the physical fundamentals of electro optics |
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