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Informationen zum Autor Didier Decoster is Professor at Engineering School of the University of Lille (Polytech'Lille), in France. He is also the leader of the Optoelectronic Group of the Institute of Electronics, Microelectronics and Nanotechnology (IEMN). Joseph Harari is a scientist of the Optoelectronic group of the Institute of Electronics, Microelectronics and Nanotechnology. He is currently Assistant Professor in the Engineering School of the University of Lille (Polytech'Lille). Klappentext Optoelectronic sensors combine optical and electronic systems for numerous applications including pressure sensors, security systems, atmospheric particle measurement, close tolerance measurement, quality control, and more. This title provides an examination of the latest research in photonics and electronics in the areas of sensors. Zusammenfassung Optoelectronic sensors combine optical and electronic systems for numerous applications including pressure sensors! security systems! atmospheric particle measurement! close tolerance measurement! quality control! and more. This title provides an examination of the latest research in photonics and electronics in the areas of sensors. Inhaltsverzeichnis Preface xi Chapter 1. Introduction to Semiconductor Photodetectors 1 Franck OMNES 1.1. Brief overview of semiconductor materials 1 1.2. Photodetection with semiconductors: basic phenomena 3 1.3. Semiconductor devices 4 1.4. p-n junctions and p-i-n structures 5 1.5. Avalanche effect in p-i-n structures 7 1.6. Schottky junction 8 1.7. Metal-semiconductor-metal (MSM) structures 10 1.8. Operational parameters of photodetectors 11 Chapter 2. PIN Photodiodes for the Visible and Near-Infrared 15 Baudoin DE CREMOUX 2.1. Introduction 15 2.2. Physical processes occurring in photodiodes 17 2.3. Static characteristics of PIN photodiodes 25 2.4. Dynamic characteristics of PIN photodiodes 34 2.5. Semiconductor materials used in PIN photodiodes for the visible and near-infrared 42 2.6. New photodiode structures 49 2.7. Bibliography 55 Chapter 3. Avalanche Photodiodes 57 Gérard RIPOCHE and Joseph HARARI 3.1. Introduction 57 3.2. History 58 3.3. The avalanche effect 60 3.4. Properties of avalanche photodiodes 66 3.5. Technological considerations 76 3.6. Silicon avalanche photodiodes 80 3.7. Avalanche photodiodes based on gallium arsenide 88 3.8. Germanium avalanche photodiodes 90 3.9. Avalanche photodiodes based on indium phosphate (InP) 95 3.10. III-V low-noise avalanche photodiodes 100 3.11. Prospects 104 3.12. Conclusion 106 3.13. Bibliography 107 Chapter 4. Phototransistors 111 Carmen GONZALEZ and Antoine MARTY 4.1. Introduction 111 4.2. Phototransistors 112 4.3. The bipolar phototransistor: description and principles of operation 118 4.4. Photodetector circuits based on phototransistors 140 4.5. Applications 142 4.6. Conclusion 150 4.7. Bibliography 151 Chapter 5. Metal-Semiconductor-Metal Photodiodes 155 Joseph HARARI and Vincent MAGNIN 5.1. Introduction 155 5.2. Operation and structure 156 5.3. Static and dynamic characteristics 165 5.4. Integration possibilities and conclusion 177 5.5. Bibliography 178 Chapter 6. Ultraviolet Photodetectors 181 Franck OMNES and Eva MONROY 6.1. Introduction 181 6.2. The UV-visible contrast 189 6.3. Si and SiC photodetectors for UV photodetection 190 6.4. UV detectors based on III-V nitrides 195 6.5. Conclusion 216 6.6. Bibliography 218 Chapter 7. Noise in Phot...
