Optical sources, detectors, and systems : fundamentals and applications

Optical sources, detectors, and systems fundamentals and applications

Optical Sources, Detectors, and Systems presents a unified approach, from the applied engineering point of view, to radiometry, optical devices, sources, and receivers. One of the most important and unique features of the book is that it combines modern optics, electric circuits, and system analysis...

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Detalles Bibliográficos
Autor principal: Kingston, Robert Hildreth, 1928- (-)
Formato: Libro electrónico
Idioma:Inglés
Publicado: San Diego : Academic Press c1995.
Edición:1st edition
Colección:Optics and photonics.
Materias:
Photonics.
Optical detectors.
Optical communications.
Imaging systems.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009627355706719
Tabla de Contenidos:
  • Front Cover; Optical Sources, Detectors, and Systems; Copyright Page; Contents; Preface; Symbols; Chapter 1. Blackbody Radiation, Image Plane Intensity, and Units; 1.1 Planck's Law; 1.2 Energy Flow, Absorption, and Emission; 1.3 The Stefan-Boltzmann Law; 1.4 Image Intensity in an Optical Receiver; 1.5 Units and Intensity Calculations; Problems; Chapter 2. Interaction of Radiation with Matter: Absorption, Emission, and Lasers; 2.1 The Einstein A and B Coefficients and Stimulated Emission; 2.2 Absorption or Amplification of Optical Waves; 2.3 Electron or Fermi-Dirac Statistics
  • 2.4 The Fabry-Perot Resonator2.5 Inversion Techniques; Problems; Chapter 3. The Semiconductor Laser; 3.1 Electron State Density versus Energy in Semiconductors; 3.2 Gain Coefficient; 3.3 Laser Structures and Their Parameters; 3.4 Laser Beamwidth and the Fraunhofer Transform; Problems; Chapter 4. The Ideal Photon Detector and Noise Limitations on Optical Signal Measurement; 4.1 The Ideal Photon Detector and Shot Noise; 4.2 The Detector Circuit: Resistor and Amplifier Noise; 4.3 The Transimpedance Amplifier; 4.4 Signal-to-Noise Voltage and Noise Equivalent Power
  • 4.5 The Integrating Amplifier: Sampled Data Systems and Noise Equivalent Electron Count4.6 Effective Input Noise Current, Responsivity, and Detectivity; 4.7 General Signal-to-Noise Expression for Combined Signal, Background, and Amplifier Noise; Problems; Chapter 5. Real Detectors: Vacuum Photodiodes and Photomultipliers, Photoconductors, Junction Photodiodes, and Avalanche Photodiodes; 5.1 Vacuum Photodiode and Photomultiplier; 5.2 Semiconductors: Photoconductors and Photodiodes; 5.3 Avalanche Photodiodes; Problems; Chapter 6. Heterodyne or Coherent Detection and Optical Amplification
  • 6.1 Simple Plane Wave Analysis6.2 Heterodyne Detection with Arbitrary Wavefronts; 6.3 Siegman's Antenna Theorem; 6.4 Optical Amplification with Heterodyne Detection; 6.5 Optical amplification with Direct Detection; Problems; Chapter 7. Systems I: Radiometry, Communications, and Radar; 7.1 Radiometry; 7.2 Optical Communication: Direct Detection; 7.3 Optical Communication: Heterodyne Detection; 7.4 Radar; 7.5 Atmospheric Effects; Problems; Chapters 8. Systems II: Imaging; 8.1 Photoemissive Image Tubes; 8.2 Photoconductive Image Tubes; 8.3 Detector Arrays; 8.4 Charge-Coupled Device (CCD) Arrays
  • Appendix A: Answers to ProblemsReferences; Index

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