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GaAs/AlGaAs quantum well infrared photoconductors versus HgCdTe photodiodes for long-wavelength infrared applications

Journal Article · · Optical Engineering; (United States)
DOI:https://doi.org/10.1117/12.179690· OSTI ID:7274833
;  [1]
  1. Military Academy of Technology, Warsaw (Poland). Inst. of Technical Physics
+ Show Author Affiliations

Investigations of the performance of GaAs/AlGaAs quantum well IR photoconductors (QWIPs) as compared to HgCdTe photodiodes operated at temperatures below 77 K in the long-wavelength IR (LWIR) region are presented. In comparative studies, the current standard n[sup +]-p HgCdTe photodiodes as well as p[sup +]-n photodiodes are considered. Investigations of the fundamental physical limitations of HgCdTe photodiodes indicate better performance of this type of detector in comparison with QWIPs operated in the range 40 to 77 K. At 40 K, QWIPs with a cutoff wavelength of about 8 [mu]m indicate higher detectivity. The advantage of QWIPs increases in wider spectral regions and at temperatures below 40 K. Usually, in the temperature range below 50 K the performance of n[sup +]-p HgCdTe photodiodes is determined by trap-assisted tunneling. As a result, the advantage of GaAs/AlGaAs QWIPs increases in wider spectral regions ([lambda][sub c] [approx]8 to 12 [mu]m) and at temperatures below 50 K. The comparison with p[sup +]-n HgCdTe photodiodes is more complicated for lack of precisely modeled current transport in these junctions. GaAs/AlGaAs QWIPs at 40 K are background limited in low-background conditions. This observation plus the maturity of GaAs/AlGaAs technology and its radiation hardness characteristics promise that QWIP technology can produce high-quality focal plane arrays for space applications.

OSTI ID:
7274833
Journal Information:
Optical Engineering; (United States), Journal Name: Optical Engineering; (United States) Vol. 33:5; ISSN 0091-3286; ISSN OPEGAR
Country of Publication:
United States
Language:
English

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Related Subjects

440500* -- Thermal Instrumentation-- (1990-)
47 OTHER INSTRUMENTATION
ALUMINIUM ARSENIDES
ALUMINIUM COMPOUNDS
ARSENIC COMPOUNDS
ARSENIDES
CADMIUM COMPOUNDS
CADMIUM TELLURIDES
CHALCOGENIDES
DESIGN
DETECTION
ELECTROMAGNETIC RADIATION
GALLIUM ARSENIDES
GALLIUM COMPOUNDS
HETEROJUNCTIONS
INFRARED RADIATION
JUNCTIONS
MEASURING INSTRUMENTS
MERCURY COMPOUNDS
MERCURY TELLURIDES
PERFORMANCE
PHOTODETECTORS
PHOTODIODES
PNICTIDES
RADIATION DETECTION
RADIATION DETECTORS
RADIATIONS
SEMICONDUCTOR DETECTORS
SEMICONDUCTOR DEVICES
SEMICONDUCTOR DIODES
SEMICONDUCTOR JUNCTIONS
TELLURIDES
TELLURIUM COMPOUNDS