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Infrared (IR) detectors fall into two main categories, thermal and photon. The earliest detectors of IR were thermal in nature, e.g. thermometers. The subsequent developments of these detectors, such as thermopiles, resistance bolometers, Golay cells and pyroelectric detectors, can operate at ambient temperature but have disadvantages of insensitivity and slowness. A wide variety of semiconductor photon detectors have been developed and these possess very high sensitivity, high frequency response but have the disadvantage of needing cryogenic cooling, particularly at longer wavelengths. In the…mehr

Produktbeschreibung
Infrared (IR) detectors fall into two main categories, thermal and photon. The earliest detectors of IR were thermal in nature, e.g. thermometers. The subsequent developments of these detectors, such as thermopiles, resistance bolometers, Golay cells and pyroelectric detectors, can operate at ambient temperature but have disadvantages of insensitivity and slowness. A wide variety of semiconductor photon detectors have been developed and these possess very high sensitivity, high frequency response but have the disadvantage of needing cryogenic cooling, particularly at longer wavelengths. In the main, the applications have been in the military sphere, but widespread industrial and scientific applications also exist. The majority of development funding for these semiconducting IR detectors has, however, come from military sources. This book is an attempt to provide an up-to-date view of the various IR detector/emitter materials systems currently in use or being actively researched. The book is aimed at newcomers to the field and at those already working in the IR industry. It is hoped that the former will find the book readable both as an introductory text and as a useful guide to the literature. Workers in one of the various IR areas will, hopefully, find the book useful in bringing them up-to-date with other, sometimes competing, technologies. To both groups of readers we trust that the book will prove interesting, thought-provoking and a spur to further progress in this fascinating and challenging field of endeavour.
Autorenporträt
Dr. Peter Capper is a Materials Team Leader at SELEX Sensors and Airborne Systems Infrared Ltd (formerly BAE Systems), and has over 30 years of experience in the infrared material Cadmium Mercury Telluride (CMT). He holds the patent for the application of the accelerated crucible rotation technique to CMT growth and is recognised as a world authority on CMT. He has written and edited 6 books on electronic materials and devices. He has served on several International Advisory boards to conferences, acted as co-Chair at an E-MRS Symposium and a SPIE Symposium and has edited several conference proceedings for J. Crystal Growth and J. Materials Science. He is also currently on the editorial board of the Journal of Materials Science: Materials in Electronics.
Rezensionen
`The book providesa useful, compact reference work for the infrated specialist and a good tutorial for the non-specialist, particularly through the two introductory chapters on the operating principles and assessment of devices, and theoretical sections dispersed amongst the other chapters. Chapters 1 and 2 are recommended reading before full immersion in the later chapters, which are all by well-known.'
Measured Science Technology,12:9(2001)
`The book providesa useful, compact reference work for the infrated specialist and a good tutorial for the non-specialist, particularly through the two introductory chapters on the operating principles and assessment of devices, and theoretical sections dispersed amongst the other chapters. Chapters 1 and 2 are recommended reading before full immersion in the later chapters, which are all by well-known.'
Measured Science Technology,12:9(2001)