Infrared and Terahertz Detectors

✍ Scribed by Rogalski, Antoni

Publisher: Chapman and Hall/CRC
Year: 2019
Tongue: English
Leaves: 1067
Edition: 3rd ed
Category: Library

No coin nor oath required. For personal study only.

✦ Table of Contents

Content: Cover
Half Title
Title Page
Copyright Page
Dedication
Contents
Preface to the third edition
Acknowledgements to the third edition
About the author
PART I: FUNDAMENTALS OF INFRARED AND TERAHERTZ DETECTION
1. Radiometry
1.1 Radiometric and photometric quantities and units
1.2 Definitions of radiometric quantities
1.3 Radiance
1.4 Blackbody radiation
1.5 Emissivity
1.6 Infrared optics
References
2. Infrared systems fundamentals
2.1 Infrared detector market
2.2 Night vision system concepts
2.3 Thermal imaging
2.3.1 Thermal imaging system concepts 2.3.2 IR cameras versus FLIR systems2.3.3 Space-based systems
2.4 Cooler technologies
2.4.1 Cryocoolers
2.4.1.1 Cryogenic dewars
2.4.1.2 Stirling cycle
2.4.1.3 Pulse tube
2.4.1.4 Joule-Thomson coolers
2.4.1.5 Sorption
2.4.1.6 Brayton
2.4.1.7 Adiabatic demagnetization
2.4.1.8 [sup(3)]He coolers
2.4.1.9 Passive coolers
2.4.2 Peltier coolers
2.5 Atmospheric transmission and IR bands
2.6 Scene radiation and contrast
References
3. Characterization of infrared detectors
3.1 Historical aspects of modern IR technology
3.2 Classification of IR detectors 3.3 Detector operating temperature3.4 Detector figures of merit
3.4.1 Responsivity
3.4.2 Noise equivalent power
3.4.3 Detectivity
3.4.4 Quantum efficiency
3.5 Fundamental detectivity limits
References
4. Fundamental performance limitations of infrared detectors
4.1 Thermal detectors
4.1.1 Principle of operation
4.1.2 Noise mechanisms
4.1.3 Detectivity and fundamental limits
4.2 Photon detectors
4.2.1 Photon detection process
4.2.2 Model of photon detector
4.2.2.1 Optical generation noise
4.2.2.2 Thermal generation and recombination noise 4.2.3 Optimum thickness of photodetector4.2.4 Detector materials figure of merit
4.3 Comparison of fundamental limits of photon and thermal detectors
4.4 Modeling of photodetectors
References
5. Coupling of infrared radiation with detectors
5.1 Standard coupling
5.2 Plasmonic coupling
5.2.1 Surface plasmons
5.2.2 Plasmonic coupling of infrared detectors
5.3 Photon trapping detectors
References
6. Heterodyne detection
6.1 Heterodyne detection theory
6.2 Infrared heterodyne technology
References
PART II: INFRARED THERMAL DETECTORS
7. Thermopiles 7.1 Basic principle and operation of thermopiles7.2 Figures of merit
7.3 Thermoelectric materials
7.4 Micromachined thermopiles
7.4.1 Design optimization
7.4.2 Thermopile configurations
7.4.3 Micromachined thermopile technology
References
8. Bolometers
8.1 Basic principle and operation of bolometers
8.2 Types of bolometers
8.2.1 Metal bolometers
8.2.2 Thermistors
8.2.3 Semiconductor bolometers
8.3 Micromachined room-temperature bolometers
8.3.1 Microbolometer sensing materials
8.3.1.1 Vanadium oxide
8.3.1.2 Amorphous silicon
8.3.1.3 Silicon diodes
8.3.1.4 Other materials

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