High-operating-temperature infrared photodetectors /

This book presents approaches, materials, and devices that eliminate the cooling requirements of IR photodetectors operating in the middle- and long-wavelength ranges of the IR spectrum. It is based mainly on the authors' experiences in developing and fabricating near room temperature HgCdTe de...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Piotrowski, Jozef, 1943-
Autor Corporativo: Society of Photo-Optical Instrumentation Engineers
Otros Autores: Rogalski, Antoni
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bellingham, Wash. : SPIE, 2007.
Colección:SPIE monograph ; PM169.
Temas:
Infrared detectors.
Optical detectors.
Détecteurs de rayonnement infrarouge.
Détecteurs optiques.
TECHNOLOGY & ENGINEERING > Technical & Manufacturing Industries & Trades.
Infrared detectors
Optical detectors
Detetores.
Materiais óticos.
Capteurs optiques.
Acceso en línea:Texto completo

MARC

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100 1 |a Piotrowski, Jozef,  |d 1943- 
245 1 0 |a High-operating-temperature infrared photodetectors /  |c Jozef Piotrowski, Antoni Rogalski. 
260 |a Bellingham, Wash. :  |b SPIE,  |c 2007. 
300 |a 1 online resource (xiv, 240 pages) :  |b illustrations 
336 |a text  |b txt  |2 rdacontent 
337 |a computer  |b c  |2 rdamedia 
338 |a online resource  |b cr  |2 rdacarrier 
490 1 |a SPIE Press monograph ;  |v PM169 
500 |a "SPIE digital library." 
504 |a Includes bibliographical references and index. 
505 0 |a Chap. 1. Introduction. 1.1. General remarks -- 1.2. Detector figures of merit -- 1.3. Detectivity requirements for thermal imagers -- 1.4. Cooling of IR detectors -- References. 
505 8 |a Chap. 2. Fundamental performance limitations of infrared photodetectors. 2.1. Infrared photon detector classifications -- 2.2. Theoretical model -- 2.3. Optimum thickness of a detector -- 2.4. Detector material figure of merit -- 2.5. Reducing device volume to enhance performance -- References. 
505 8 |a Chap. 3. Materials used for intrinsic photodetectors. 3.1. Semiconductors for intrinsic photodetectors -- 3.2. Hg1-xCdxTe ternary alloys -- 3.3. Hg-based alternatives to HgCdTe -- 3.4 InAs/Ga1-xInxSb Type II superlattices -- 3.5 Novel Sb-based materials -- 3.6 Lead salts -- References. 
505 8 |a Chap. 4. Intrinsic photodetectors -- 4.1. Optical absorption -- 4.2. Thermal generation-recombination processes -- 4.4. Modeling of high-temperature photodetectors -- References. 
505 8 |a Chap. 5. Hg1xCdxTe photoconductors -- 5.1. Simplified model of equilibrium mode photoconductors -- 5.2. Excluded photoconductors -- 5.3. Practical photoconductors -- 5.4. SPRITE detectors -- References. 
505 8 |a Chap. 6. Hg1-xCdxTe photodiodes -- 6.1. Theoretical design of Hg-1xCdxTe photodiodes -- 6.2. Technology of Hg1-xCdxTe photodiodes -- 6.3. Practical photodiodes -- References. 
505 8 |a Chap. 7. Photoelectromagnetic, magnetoconcentration, and Dember IR detectors -- 7.1. PEM detectors -- 7.2. Magnetoconcentration detectors -- 7.3. Dember detectors -- References. 
505 8 |a Chap. 8. Lead salt photodetectors -- 8.1. PbS and PbSe photoconductors -- 8.2. Lead salt photovoltaic detectors -- References. 
505 8 |a Chap. 9. Alternative uncooled long-wavelength IR photodetectors -- 9.1. HgZnTe and HgMnTe detectors -- 9.2. III-V detectors -- 9.3. InAs/Ga1-xInxSb type-II superlattice detectors -- 9.4. Thermal detectors -- References. 
505 8 |a Chap. 10. Final remarks -- 10.1. Summary of progress to date -- 10.2. Directions for future development -- References -- Index. 
520 |a This book presents approaches, materials, and devices that eliminate the cooling requirements of IR photodetectors operating in the middle- and long-wavelength ranges of the IR spectrum. It is based mainly on the authors' experiences in developing and fabricating near room temperature HgCdTe detectors at Vigo Systems Ltd. and at the Institute of Applied Physics Military University of Technology (both in Warsaw, Poland). The text also discusses solutions to other specific problems of high-temperature detection, such as poor collection efficiency due to a short diffusion length, the Johnson-Nyquist noise of parasitic impedances, and interfacing of very low resistance devices to electronics. Suitable for graduate students in physics and engineering who have received a basic preparation in modern solid state physics and electronic circuits, this book will also be of interest to individuals who work with aerospace sensors and systems, remote sensing, thermal imaging, military imaging, optical telecommunications, IR spectroscopy, and lidar. 
506 |3 Use copy  |f Restrictions unspecified  |2 star  |5 MiAaHDL 
533 |a Electronic reproduction.  |b [Place of publication not identified] :  |c HathiTrust Digital Library,  |d 2010.  |5 MiAaHDL 
538 |a Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002.  |u http://purl.oclc.org/DLF/benchrepro0212  |5 MiAaHDL 
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650 0 |a Optical detectors. 
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650 6 |a Détecteurs optiques. 
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650 7 |a Détecteurs de rayonnement infrarouge.  |2 ram 
700 1 |a Rogalski, Antoni. 
710 2 |a Society of Photo-Optical Instrumentation Engineers. 
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