Computer Science – Performance
Scientific paper
Nov 1983
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983infph..23..363l&link_type=abstract
Infrared Physics (ISSN 0020-0891), vol. 23, Nov. 1983, p. 363, 364.
Computer Science
Performance
Arrays, Design Analysis, Infrared Detectors, Performance Prediction, Geometry, Photosensitivity, Quadratic Equations
Scientific paper
The determination of the true active area of a pixel is one of the major concerns in IR array performance evaluation. This true active area consists of the area defined by the pixel diffusion or implant and an area peripheral to the pixel, wherein a carrier generated by a photon will be collected within the pixel. In principle, the true active area can be determined by spot-scan techniques. However, the implementation of spot scans can be very difficult with IR detector geometries and wavelengths. These parameters can also be determined by means of a simple technique utilizing a comparison of the areas and the output currents from two pixels. The recombination length is obtained as a solution of a quadratic equation.
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